Optical Imaging

 


Peer-reviewed Journal Articles (By First Author)

Ai, J.

  1. J. Ai and L. V. Wang, "Spectral-domain optical coherence tomography: Removal of autocorrelation using an optical switch," Applied Physics Letters 88 (11), 111115 (Mar. 2006).[PDF]

  2. J. Ai and L. V. Wang, "Synchronous self-elimination of auto-correlation interference in Fourier-domain optical coherence tomography," Optics Letters 30 (21): 2939-2941 (Nov. 1, 2005).[PDF]

Anastasio, M. A.

  1. M. A. Anastasio, J. Zhang, X. Pan, Y. Zou, G. Ku, and L. V. Wang, "Half-time image reconstruction in thermoacoustic tomography," IEEE Transactions on Medical Imaging 24 (2), 199–210 (Feb. 2005).[PDF]

Bitton, R.

  1. R. Bitton, R. J. Zemp, J. Yen, L. V. Wang, and K. Kirk Shung, “A 3D high frequency array based 16 channel photoacoustic microscopy system for in-vivo micro-vascular imaging,” IEEE Transactions on Medical Imaging, accepted (2009). [PDF]  

Cai, X.

  1. [L. Wu, X. Cai], K. Nelson, W. Xing, J. Xia, R. Zhang, A. J. Stacy, M. Luderer, G. M. Lanza and L. V. Wang, "A green synthesis of carbon nanoparticles from honey and their use in real-time photoacoustic imaging," Nano Research 6(5), 312-325 (May 2013). [PDF]  

  2. X. Cai, Y. S. Zhang, Y. Xia, and L. V. Wang, “Photoacoustic microscopy in tissue engineering,” Materials Today 16(3), 67-77 (Mar. 2013). [PDF] (invited review article)  

  3. [X. Cai, Y. Zhang], L. Li, S.-W. Choi, M. R. MacEwan, J. Yao, C. Kim, Y. Xia* and L. V. Wang*, “Investigation of neovascularization in three-dimensional porous scaffolds in vivo by a combination of multiscale photoacoustic microscopy and optical coherence tomography,” Tissue Engineering Part C: Methods 19(3), 196-204 (Mar. 2013). [PDF]  

  4. [E.-C. Cho, Y. Zhang, X. Cai], C. M. Moran, L. V. Wang* and Y. Xia*, “Quantitative analysis of the fate of gold nanocages in vitro and in vivo after uptake by U87-MG tumor cells,” Angewandte Chemie International Edition 52(4), 1152-1155 (Jan. 2013). [PDF]  

  5. [L. Nie, X. Cai], K. Maslov, A. Garcia-Uribe, M. A. Anastasio and L. V. Wang, “Photoacoustic tomography through a whole adult human skull with a photon recycler,” Journal of Biomedical Optics 17(11), 110506 (Nov. 2012). [PDF]  

  6. [X. Cai, L. Li], A. Krumholz, Z. Guo, T. N. Erpelding, C. Zhang, Y. Zhang, Y. Xia, and L. V. Wang, “Multi-scale molecular photoacoustic tomography of gene expression,” PLoS ONE 7(8), e43999 (Aug. 2012). [PDF]  

  7. [X. Cai, B. S. Paratala, S. Hu], B. Sitharaman, and L. V. Wang, “Multiscale photoacoustic microscopy of single-walled carbon nanotube-incorporated tissue engineering scaffolds,” Tissue Engineering Part C: Methods 18(4), 310–317. (Mar. 2012).  [PDF]  

  8. [D. Pan*, X. Cai], C. Yalaz, A. Senpan, K. Omanakuttan, S. A. Wickline, L. V. Wang*, and G. M. Lanza, “Photoacoustic sentinel lymph node imaging with self-assembled copper neodecanoate nanoparticles,” ACS Nano 6(2), 1260–1267 (Feb. 2012). [PDF]  

  9. [X. Cai, W. Li], C. Kim, Y. Yuan, L. V. Wang*, and Y. Xia*, "In vivo quantitative evaluation of the transport kinetics of gold nanocages in a lymphatic system by noninvasive photoacoustic tomography," ACS Nano 5(12), 9658-9667 (Dec. 2011). [PDF] (highlighted at http://nanotechweb.org/cws/article/tech/48017).  

  10. X. Cai, C. Kim, M. Pramanik, and L. V. Wang, “Photoacoustic tomography of foreign bodies in soft biological tissue,” Journal of Biomedical Optics 16(4), 046017 (Apr. 2011). [PDF]  

  11. [W. Li, X. Cai, C. Kim], G. Sun, Y. Zhang, R. Deng, M. Yang, J. Chen, S. Achilefu, L. V. Wang*, and Y. Xia*, “Gold Nanocages covered with thermally-responsive polymers for controlled release by high-intensity focused ultrasound,” Nanoscale 3, 1724-1730 (Apr. 2011). [PDF]  

  12. [Y. Zhang, X. Cai], S.-W. Choi, C. Kim, L. V. Wang, and Y. Xia, "Chronic label-free volumetric photoacoustic microscopy of melanoma cells in three-dimensional porous scaffolds", Biomaterials 31, 8651-8658 (Nov. 2010). Published online on Aug. 19, 2010. [PDF]

Cameron, B. D.

  1. B. D. Cameron, M. J. Rakovic, M. Mehrubeoglu, G. Kattawar, S. Rastegar, L. V. Wang, and G. L. Coté, "Measurement and calculation of the two-dimensional backscattering Mueller matrix of a turbid medium," Optics Letters 23, 485-487 (1998). [PDF]

Chai, Y.

  1. Y. Chai, T. Guo, C. Jin, R. E. Haufler, L. P. F. Chibante, J. Fure, L. V. Wang, J. M. Alford, and R. E. Smalley, "Fullerenes with metals inside," Journal of Physical Chemistry 95, 7564-7568 (1991).

Chatni, M. R.

  1. M. R. Chatni, J. Xia, R. Sohn, K. Maslov, Z. Guo, Y. Zhang, K. Wang, Y. Xia, M. Anastasio, J. Arbeit, and L. V. Wang, “Tumor glucose metabolism imaged in vivo in small animals with whole-body photoacoustic computed tomography,” Journal of Biomedical Optics 17(7), 076012 (Jul. 2012). [PDF]  

  2. M. R. Chatni, J. Yao, A. Danielli, C. P. Favazza, K. I. Maslov and L. V. Wang, "Functional photoacoustic microscopy of pH," Journal of Biomedical Optics 16(10), 100503 (Oct. 2011). [PDF]

Chen, Y.

  1. [L. Zhu, Y. Chen, J. Liang], Q. Xu, L. Gao, C. Ma, and L. V. Wang, “Space- and intesity- constrained reconstruction for compressed ultrafast photography,” Optica 3(7), 694-697 (2016). [Request PDF]  

Cho, E. C.

  1. [E.-C. Cho, Y. Zhang, X. Cai], C. M. Moran, L. V. Wang* and Y. Xia*, “Quantitative analysis of the fate of gold nanocages in vitro and in vivo after uptake by U87-MG tumor cells,” Angewandte Chemie International Edition 52(4), 1152-1155 (Jan. 2013). [PDF]  

  2. [C. Kim, E. C. Cho], J. Chen, K. H. Song, L. Au, C. Favazza, Q. Zhang, C. M. Cobley, F. Gao, Y. Xia* and L. V. Wang*, “In Vivo Molecular Photoacoustic Tomography of Melanomas Targeted by Bioconjugated Gold Nanocages,” ACS Nano, Article ASAP, DOI: 10.1021/nn100736c (web, Jul. 2010). [PDF]  

  3. [E. C. Cho, C. Kim], F. Zhou, C. M. Cobley, K. H. Song, J. Y. Chen, Z. Y. Li, [L. V. Wang, and Y. N. Xia], “Measuring the optical absorption cross-sections of Au-Ag nanocages and Au nanorods by photoacoustic imaging,” Journal of Physical Chemistry C, 113 (21), 9023–9028 (May 2009). [PDF]

Cong, W. X.

  1. W. X. Cong, K. Durairaj, L. V. Wang, and G. Wang, "A Born-type approximation method for bioluminescence tomography," Medical Physics 33, 679–686 (Mar. 2006). [PDF]

  2. W. Cong, G. Wang, D. Kumar, Y. Liu, M. Jiang, L. V. Wang, E. A. Hoffman, G. McLennan, P. B. McCray, J. Zabner, and A. Cong, "Practical reconstruction method for bioluminescence tomography," Optics Express 13 (18), 6756-6771 (Sep. 2005). [PDF]

  3. W. Cong, L. V. Wang, G. Wang, "Formulation of photon diffusion from spherical bioluminescent sources in an infinite homogeneous medium," BioMedical Engineering OnLine 2004 (3), 12 (May 4, 2004). [PDF]

Crochet, J. J.

  1. J. J. Crochet, S. C. Gnyawali, Y. C. Chen, E. C. Lemley, L. V. Wang, and W. R. Chen, "Temperature distribution in selective laser-tissue interaction," Journal of Biomedical Optics 11, 034031 (May/Jun. 2006). [PDF]

Dai, T.

  1. T. Dai, B. M. Pikkula, L. V. Wang, and B. Anvari, “Comparison of human skin opto-thermal response to near-infrared and visible laser irradiations: a theoretical investigation,” Physics in Medicine and Biology 49, 4861–4877 (Oct. 2004). [PDF]

Danielli, A.

  1. A. Danielli, K. Maslov, C. P. Favazza, J. Xia, L. V. Wang, “Nonlinear photoacoustic spectroscopy of hemoglobin”, Applied Physics Letters 106(20), 203701 (2015). [PDF]  

  2. A. Danielli, K. Maslov, A. Garcia-Uribe, A. M. Winkler, C. Li, L. Wang, Y. Chen, G. W. Dorn, and L. V. Wang, “Label-free photoacoustic nanoscopy,” J. Biomed. Opt. 19(8), 086006 (2014). [PDF]  

  3. A. Danielli, C. P. Favazza, K. Maslov, and L. V. Wang, “Single-wavelength functional photoacoustic microscopy in biological tissue,” Optics Letters 36 (5), 769–771 (Mar. 2011). [PDF]  

  4. A. Danielli, C. P. Favazza, K. Maslov, and L. V. Wang, “Picosecond absorption relaxation measured with nanosecond laser photoacoustics,” Applied Physics Letters 97 (16), 163701 (Oct. 2010). [PDF]  

 Erpelding, T.

  1. [Y. Wang, T. N. Erpelding], L. Jankovic, Z. Guo, J.-L. Robert, G. David, and L. V. Wang, “In vivo three-dimensional photoacoustic imaging based on a clinical matrix array ultrasound probe,” Journal of Biomedical Optics 17, 061208 (May 2012). [PDF]  

  2. [C. Kim, T. N. Erpelding], L. Jankovic, M. D. Pashley, and L. V. Wang, “Deeply penetrating in vivo photoacoustic imaging using a clinical ultrasound array system,” Biomedical Optics Express, Vol. 1, Issue 1, pp. 278-284 (Jul. 2010). [PDF]  

  3. Todd N. Erpelding, Chulhong Kim, Manojit Pramanik, Ladislav Jankovic, Konstantin Maslov, Zijian Guo, Julie A. Margenthaler, Michael D. Pashley, and Lihong V. Wang, “Sentinel Lymph Nodes in the Rat: Noninvasive Photoacoustic and US Imaging with a Clinical US System,” Radiology 256(1), 102–110 (July 2010). [PDF]

Fang, H.

  1. H. Fang and L. V. Wang, "M-mode photoacoustic particle flow imaging," Optics Letters 34 (5), 671–673 (Mar. 2009). [PDF]


  2. H. Fang, K. Maslov, and L. V. Wang, "Photoacoustic Doppler flow measurement in optically scattering media," Applied Physics Letters 91, 264103-(1–3) (Dec. 2007). [PDF]


  3. H. Fang, K. Maslov, and L. V. Wang, "Photoacoustic Doppler effect from flowing small light-absorbing particles," Physical Review Letters 99, 184501-(1–4) (Oct. 2007). [PDF]  

Favazza, C. P.

  1. [P. K. Avti, S. Hu, C. Favazza], A. G. Mikos, J. A. Jansen, K. R. Shroyer, L. V. Wang*, and B. Sitharaman*, “Detection, mapping and quantification of single walled carbon nanotubes in histological specimens with photoacoustic microscopy,” PLoS ONE 7(4), e35064 (Apr. 2012). [PDF]  

  2. C. P. Favazza, L. A. Cornelius, and L. V. Wang, In vivo functional photoacoustic microscopy of cutaneous microvasculature in human skin,” Journal of Biomedical Optics 16(2), 026004 (Feb. 2011). [PDF]

  3. C. P. Favazza, O. W. Jassim, L. A. Cornelius, and L. V. Wang, In vivo photoacoustic microscopy of human cutaneous microvasculature and a nevus,” Journal of Biomedical Optics 16(1), 016015 (Jan. 2011). [PDF]

Feng, D.

  1. D. Feng, Y. Xu, G. Ku, and L. V. Wang, " Microwave-induced thermoacoustic tomography: reconstruction by synthetic aperture ," Medical Physics 28, 2427– 2431 (2001). [PDF]

Gamelin, J.

  1. J. Gamelin, A. Maurudis, A. Aguirre, F. Huang, P. Guo, L. V. Wang, and Quing Zhu, “A real-time photoacoustic tomography system for small animals,” Optics Express 17 (13), 10489-10498 (Jun. 2009). [PDF]

  2. J. Gamelin, A. Aguirre, A. Maurudis, F. Huang, D. Castillo, L. V. Wang, and Q. Zhu, "Curved array photoacoustic tomographic system for small animal imaging," Journal of Biomedical Optics 13, 024007-(1–10) (Apr. 2008). [PDF]  

Gao, L.

  1. L. Gao and L. V. Wang. “A review of snapshot multidimensional optical imaging: Measuring photon tags in parallel,” Physics Reports, 616, 1-37(2016). [Request PDF]  

  2. L. Gao, J. Liang, C. Li, and L. V. Wang, "Single-shot compressed ultrafast photography at one hundred billion frames per second,” Nature 516, 74-77 (2014). [PDF]  

  3. [L. V. Wang and L. Gao], "Photoacoustic Microscopy and Computed Tomography: From Bench to Bedside," Annu. Rev. Biomed. Eng. 16:155–85(2014). [PDF]  

  4. L. Gao, L. Zhu, C. Li, and L. V. Wang, "Nonlinear light-sheet fluorescence microscopy by photobleaching imprinting," Journal of The Royal Society Interface 11 (93), 0851(2013). [PDF]  

  5. L. Gao, A. Garcia-Uribe, Y. Liu, C. Li, and L. V. Wang, “Photobleaching imprinting microscopy: seeing clearer and deeper,” Journal of Cell Science 126(23), 142943(Dec. 2013). [PDF]  

  6. [C. Li, C. Zhang, L. Gao], A. G. Uribe, and L. V. Wang, “Photoacoustic recovery after photothermal bleaching in living cells,” Journal of Biomedical Optics 18(10), 106004 (Oct. 2013). [PDF]  

  7. [L. Gao, C. Zhang, C. Li], and L. V. Wang, “Intracellular temperature mapping with fluorescence-assisted photoacoustic-thermometry,” Applied Physics Letters 102(19), 193705 (May 2013). [PDF]

  8. L. Gao, L. Wang, C. Li, Y. Liu, H. Ke, C. Zhang and L. V. Wang, “Single-cell photoacoustic thermometry,” Journal of Biomedical Optics 18(2), 026003 (Feb. 2013). [PDF]

  9. L. Gao, L. Wang, C. Li, A. G. Uribe, and L. V. Wang, “Photothermal bleaching in time-lapse photoacoustic microscopy,” Journal of Biophotonics 6(6-7), 543-548 (Jun. 2013). [PDF

Garcia-Uribe, A.

  1. A. Garcia-Uribe, T. N. Erpelding, A. Krumholz, H. Ke, K. Maslov, C. Appleton, J. A. Margenthaler, and L. V. Wang. “Dual-modality photoacoustic and ultrasound imaging system for noninvasive sentinel lymph node detection in patients with breast cancer,” Scientific Reports 5, 15748 (Oct. 2015). [PDF

  2. A. Garcia-Uribe, J. Zou, M. Duvic, J.H. Cho-Vega, V. G. Prieto, and L V. Wang, “In Vivo Diagnosis of Melanoma and Nonmelanoma Skin Cancer Using Oblique Incidence Diffuse Reflectance Spectrometry,“ Cancer Research 72(11), 2738–45 (Jun. 2012). [PDF]  

  3. A. Garcia-Uribe, C.-C. Chang, M. K. Yapici, J. Zou, B. Banerjee, J. Kuczynski, E. S. Ong, E. S. Marner, and L. V. Wang, “High-transmission-efficiency and side-viewing micro OIDRS probe for fast and minimally invasive tumor margin detection,” IEEE Sensors Journal, 11(4), 891-896 (Apr. 2011). [PDF]  

  4. A. Garcia-Uribe, E. B. Smith, J. Zou, M. Duvic, V. Prieto, and L. V. Wang, “In-vivo characterization of optical properties of pigmented skin lesions including melanoma using oblique incidence diffuse reflectance spectrometry,” Journal of biomedical optics 16(2), 020501 (Feb. 2011). [PDF]  

  5. A. Garcia-Uribe, K. C. Balareddy, J. Zou, A. K. Wojcik, K. K. Wang, and L. V. Wang, “Micromachined side-viewing optical sensor probe for detection of esophageal cancers,” Sensors and Actuators A: Physical 150 (1),144–150 (Mar. 2009). doi:10.1016/j.sna.2008.11.008. [PDF]

  6. A. Garcia-Uribe, K. C. Balareddy, J. Zou, and L. V. Wang, "Micromachined fiber optical sensor for in vivo measurement of optical properties of human skin," IEEE Sensors Journal 8, 1698–1703 (Sep. 2008). [PDF]
  7. A. Garcia-Uribe, N. Kehtarnavaz, G. Marquez, V. Prieto, M. Duvic, and L. V. Wang, "Skin cancer detection using spectroscopic oblique-incidence reflectometry: classification and physiological origins," Applied Optics 43 (13), 2643–2650 (May 1, 2004). [PDF]

Guo, Z.

  1. Z. Guo, C. Favazza, A. Garcia-Uribe, and L. V. Wang, “Quantitative photoacoustic microscopy of optical absorption coefficients from acoustic spectra in the optical diffusive regime,” Journal of Biomedical Optics 17(6), 066011 (Jun. 2012). [PDF]

  2. Z. Guo, Z. Xu, and L. V. Wang, “Dependence of photoacoustic speckles on boundary roughness,” Journal of  Biomedical Optics 17(4), 046009 (Apr. 2012). [PDF]

  3. Z. Guo, S. Hu, and L. V. Wang, “Calibration-free absolute quantification of optical absorption coefficients using acoustic spectra in three-dimensional photoacoustic microscopy of biological tissue,” Optics Letters 35 (12), 2067–2069 (Jun. 2010). [PDF]

  4. Z. Guo, and L. V. Wang, “Compressed sensing in photoacoustic tomography in vivo,” Journal of Biomedical Optics 15, 021311 (Apr. 12, 2010). [PDF]

  5. [Z. Guo, L. Li], and L. V. Wang, “On the speckle-free nature of photoacoustic tomography,” Medical Physics 36 (9), 4084–4088 (Aug. 2009). [PDF]

Hai, P.

  1. P. Hai, Y. Zhou, R. Zhang, J. Ma, Y. Li, J. Shao, and L. V. Wang, "Label-free high-throughput detection and quantification of circulating melanoma tumor cell clusters by linear-assay-based photoacoustic tomography," J. Biomed. Opt. 22(4), 041004 (2017). [Reqest PDF]

  2. P. Hai, Y. Zhou, L. Gong, and L. V. Wang, "Quantitative photoacoustic elastography in humans," J. Biomed. Opt. 21(6), 066011 (2016). [Reqest PDF]

  3. P. Hai, J. Yao, G. Li, C. Li, and L. V. Wang, "Photoacoustic elastography," Opt. Lett. 41(4), 725-728 (2016). [Reqest PDF]

  4. P. Hai, Y. Zhou, J. Liang, C. Li, and L. V. Wang, "Photoacoustic tomography of vascular compliance in humans," J. Biomed. Opt. 20(12), 126008 (2015). [PDF]

  5. P. Hai, J. Yao, K. I. Maslov, Y. Zhou, and L. V. Wang, “Near-infrared optical-resolution photoacoustic microscopy,” Opt. Lett. 39(17), 5192–5195 (2014).[PDF]

He, Y.

  1. [Y. He, L. Wang, J. Shi], J. Yao, L. Li, R. Zhang, C. H. Huang, J. Zou, and L. V. Wang, "In vivo label-free photoacoustic flow cytography and on-the-spot laser killing of single circulating melanoma cells," Sci. Rep. 6, 39616 (2016). [PDF]

Hemphill, A. S.

  1. A. S. Hemphill, J. W. Tay, and L. V. Wang, "Hyrbridized wavefront shaping for high-speed, high-efficiency focusing through dynamic diffusive media," J. Biomed. Opt. 21(12), 121502 (2016). [Reqest PDF]

Hielscher, A. H.

  1. A. H. Hielscher, S. L. Jacques, L. V. Wang, and F. K. Tittel, "Influence of boundary conditions on the accuracy of diffusion theory in time-resolved reflectance spectroscopy of biological tissues," Physics in Medicine and Biology 40, 1957-1975 (1995). [PDF]

Hollmann, J. L.

  1. J. L. Hollmann, and L. V. Wang, "Multiple-source optical diffusion approximation for a multilayer scattering medium," Applied Optics 46, 6004–6009 (Aug. 2007). [PDF]

Hsu, H. C.

  1. H. C. Hsu, L. Wang, and L. V. Wang, "In vivo photoacoustic microscopy of huan cuticle microvasculature with single-cell resolution," J. Biomed. Opt. 21(5), 056004 (2016). [Request PDF]

Hu, S.

  1. S. Hu and L. V. Wang, "Optical-Resolution Photoacoustic Microscopy: Auscultation of Biological Systems at the Cellular Level,"BIOPHYSICAL JOURNAL 105(4), 841-847 (Aug. 2013). [PDF]

  2. [C. Yeh, S. Hu], K. Maslov and L. V. Wang, "Photoacoustic microscopy of blood pulse wave," Journal of Biomedical Optics 17(7), 070504 (Jul. 2012). [PDF]

  3. [P. K. Avti, S. Hu, C. Favazza], A. G. Mikos, J. A. Jansen, K. R. Shroyer, L. V. Wang*, and B. Sitharaman*, “Detection, mapping and quantification of single walled carbon nanotubes in histological specimens with photoacoustic microscopy,” PLoS ONE 7(4), e35064 (Apr. 2012). [PDF]

  4. [X. Cai, B. S. Paratala, S. Hu], B. Sitharaman, and L. V. Wang, “Multiscale photoacoustic microscopy of single-walled carbon nanotube-incorporated tissue engineering scaffolds,” Tissue Engineering Part C: Methods 18(4), 310–317. (Mar. 2012).  [PDF]

  5. [S. Oladipupo, S. Hu], J. Kovalski, J. Yao, A. C. Santeford, R. Sohn, R. V. Shohet, K. Maslov, L. V. Wang, and J. M. Arbeit, “VEGF is essential for hypoxia-inducible factor mediated neovascularization but dispensable for endothelial sprouting,” Proceedings of the National Academy of Sciences 108(32) 13264-13269 (Jul. 2011). [PDF]

  6. [V. Tsytsarev, S. Hu], J. Yao, K. Maslov, D. L. Barbour, and L. V. Wang, “Photoacoustic microscopy of microvascular responses to cortical electrical stimulation,” Journal of Biomedical Optics 16(7), 076002 (Jul. 2011). [PDF]

  7. S. Hu, K. Maslov, and L. V. Wang, “Three-dimensional Optical-resolution Photoacoustic Microscopy,” Journal of Visualized Experiments, doi: 10.3791/2729 (May 2011). [PDF]

  8. [S. Oladipupo, S. Hu], A. C. Santeford, J. Yao, J. Kovalski, R. V. Shohet, K. Maslov, L. V. Wang, and J. M. Arbeit, “Conditional HIF-1 induction produces multistage neovascularization with stage-specific sensitivity to VEGFR inhibitors and myeloid cell independence,” Blood 117(15), 4142-4153 (Apr. 2011). [PDF]

  9. [S. Hu, K. Maslov], and L. V. Wang, "Second-generation optical-resolution photoacoustic microscopy with improved sensitivity and speed," Optics Letters 36(7), 1134–1136 (Apr. 2011). [PDF]

  10. S. Hu and L. V. Wang, "Neurovascular photoacoustic tomography," Frontiers in Neuroenergetics 2(10), doi:10.3389/fnene.2010.00010 (Jun. 2010) [PDF]

  11. S. Hu and L. V. Wang, "Photoacoustic imaging and characterization of the microvasculature," Journal of Biomedical Optics 15(1), 011101 (Jan. 2010). [PDF]

  12. S. Hu, B. Rao, K. Maslov, and L. V. Wang, “Label-free photoacoustic ophthalmic angiography,” Optics Letters 35 (1), 1–3 (Jan. 2010). [PDF]

  13. S. Hu, P. Yan, K. Maslov, J.-M. Lee, and L. V. Wang, “Intravital imaging of amyloid plaques in a transgenic mouse model using optical-resolution photoacoustic microscopy,” Optics Letters 34 (24), 3899–3901 (Dec. 15, 2009). [PDF]

  14. S. Hu, K. Maslov, V. Tsytsarev, and L. V. Wang, "Functional transcranial brain imaging by optical-resolution photoacoustic microscopy," Journal of Biomedical Optics 14, 04050301-03 (Aug. 2009).[PDF]
     
  15. S. Hu, K. Maslov and L. V. Wang, "In vivo functional chronic imaging of a small animal model using optical-resolution photoacoustic microscopy," Med. Phys. 36(6), 2320-2323 (Jun. 2009). [PDF]
     
  16. S. Hu, K. Maslov and L. V. Wang, "Noninvasive label-free imaging of microhemodynamics by optical-resolution photoacoustic microscopy," Optics Express 17(9), 7688-7693 (Apr. 2009). [PDF]
     
  17. [K. Maslov, H. F. Zhang, S. Hu], and L. V. Wang, "Optical-resolution photoacoustic microscopy for in vivo imaging of single capillaries," Optics Letters 33, 929–931 (Apr. 2008).[PDF

Jiang, H.

  1. H. Jiang, G. Marquez, and L. V. Wang, "Particle sizing in concentrated suspensions by use of steady-state, continuous-wave photon migration techniques," Optics Letters 23, 394-396 (1998). [PDF]

Jiao, S.

  1. S. Jiao, M. Todorovic, G. Stoica, and L. V. Wang, "Fiber-based polarization-sensitive Mueller-matrix optical coherence tomography with continuous source-polarization modulation," Applied Optics 44 (26), 5463-5467 (Sep. 2005). [PDF]

  2. S. Jiao, W. Yu, G. Stoica, and L. V. Wang, "Contrast mechanisms in polarization-sensitive Mueller-matrix optical coherence tomography and application in burn imaging," Applied Optics, 42 (25), 5191-5197 (September 2003). [PDF]

  3. S. Jiao, W. Yu, G. Stoica, and L. V. Wang, "Optical-fiber-based Mueller optical coherence tomography," Optics Letters, 28 (14), 1206-1208 (July 2003). [PDF]

  4. S. Jiao and L. V. Wang, "Jones-matrix imaging of biological tissues with quadruple-channel optical coherence tomography," Journal of Biomedical Optics 7 (3), 350–358 (July 2002). [PDF]

  5. S. Jiao and L. V. Wang "Two-dimensional depth-resolved Mueller matrix of biological tissue measured with double-beam polarization-sensitive optical coherence tomography," Optics Letters 27 (2), 101–103 (2002). [PDF]

  6. S.-L. Jiao, G. Yao and L. V. Wang, "Depth-resolved two-dimensional Stokes vectors of backscattered light and Mueller matrices of biological tissue by optical coherence tomography," Appl. Optics, 39, 6318-6324(2000). [PDF]

Jin, X.

  1. X. Jin, C. H. Li, and L. V. Wang, "Effects of acoustic heterogeneities on transcranial brain imaging with microwave-induced thermoacoustic tomography," Medical Physics 35, 3205–3214 (Jul. 2008).[PDF]


  2. X. Jin, and L. V. Wang, "Thermoacoustic tomography with correction for acoustic speed variations," Physics in Medicine and Biology 51, 6437–6448 (Dec. 2006). [PDF]


  3. X. Jin, M. Xu, L. V. Wang, Y. R. Fang, C. I. Zanelli, and S. M. Howard "Imaging of HIFU-induced lesions in soft biological tissue using thermoacoustic tomography," Medical Physics 32 (1), 5–11 (Jan. 2005). [PDF]

Ke, H.-X.

  1. H. Ke, S. Tai, and L. V. Wang, “Photoacoustic thermography of tissue,” Journal of Biomedical Optics 19 (2), 026003 (Feb. 2014). [PDF]

  2. [J. Yao, H. Ke], S. Tai, Y. Zhou, and L. V. Wang, “Absolute photoacoustic thermometry in deep tissue”, Optics Letters 38(24), 5228-5231 (Dec. 2013). [PDF]

  3. H. Ke, T. N. Erpelding, L. Jankovic, C. Liu, and L. V. Wang, “Performance characterization of an integrated ultrasound, photoacoustic, and thermoacoustic imaging system,” Journal of  Biomedical Optics 17, 056010 (May 2012). [PDF]

Kim, C. H.

  1. [M. K. Yapici, C. Kim], C.-C. Chang, M. Jeon, Z. Guo, X. Cai, J. Zou, and L. V. Wang, "Parallel acoustic delay lines for photoacoustic tomography," Journal of Biomedical Optics 17(11), 116019 (Nov. 2012). [PDF]

  2. C. Kim, E. Todd, L. Jankovic, and L. V. Wang, “Performance benchmarks of an array-based hand-held photoacoustic probe adapted from a clinical ultrasound system for noninvasive sentinel lymph node imaging”, Philosophical Transactions of the Royal Society A 369, 4644–50 (Nov. 2011). [PDF]

  3. C. Kim*, M. Jeon, and L. V. Wang, "Nonionizing photoacoustic cystography in vivo," Optics Letters 36(18), 3599-3601 (Sep. 2011). [PDF]

  4. [W. Li, X. Cai, C. Kim], G. Sun, Y. Zhang, R. Deng, M. Yang, J. Chen, S. Achilefu, L. V. Wang*, and Y. Xia*, “Gold Nanocages covered with thermally-responsive polymers for controlled release by high-intensity focused ultrasound,” Nanoscale 3, 1724-1730 (Apr. 2011). [PDF]

  5. [C. Kim, H. Song], X. Cai, J. Yao, A. Wei and L. V. Wang, “In vivo photoacoustic mapping of lymphatic systems with plasmon-resonant nanostars,” Journal of Materials Chemistry 21, 2841-2844 (Feb. 2011). Selected as a "hot article" by RSC. [PDF]

  6. [W. J. Akers, C. Kim], M. Berezin, K. Guo, R. Fuhrhop, G. M. Lanza, G. M. Fischer, E. Daltrozzo, A. Zumbusch, X. Cai, L. V. Wang*, and S. Achilefu*, “Fluorescence and Photoacoustic Non-invasive Lymph Node Mapping using Perfluorocarbon Nanoparticles”, ACS Nano, Vol. 5, pp. 173-182, (Jan. 2011).  Published online on December 20, 2010. [PDF]

  7. C. Kim, T. N. Erpelding, K. Maslov, L. Jankovic, W. J. Akers, L. Song, S. Achilefu, J. A. Margenthaler, M. D. Pashley, and L. V. Wang, “Handheld array-based photoacoustic probe for guiding needle biopsy of sentinel lymph nodes,” Journal Biomedical Optics 15 (4), 046010 (Aug. 2010). [PDF]

  8. [C. Kim, T. N. Erpelding], L. Jankovic, M. D. Pashley, and L. V. Wang, “Deeply penetrating in vivo photoacoustic imaging using a clinical ultrasound array system,” Biomedical Optics Express, Vol. 1, Issue 1, pp. 278-284 (Jul. 2010). [PDF]

  9. [C. Kim, E. C. Cho], J. Chen, K. H. Song, L. Au, C. Favazza, Q. Zhang, C. M. Cobley, F. Gao, Y. Xia* and L. V. Wang*, “In Vivo Molecular Photoacoustic Tomography of Melanomas Targeted by Bioconjugated Gold Nanocages,” ACS Nano, Article ASAP, DOI: 10.1021/nn100736c (web, Jul. 2010). [PDF]

  10. C. Kim, K. H. Song, F. Gao, and L. V. Wang, “ Sentinel Lymph Nodes and Lymphatic Vessels: Noninvasive Dual-Modality in Vivo Mapping by Using Indocyanine Green in Rats—Volumetric Spectroscopic Photoacoustic Imaging and Planar Fluorescence Imaging,”  Radiology 255, 442-450 (May 2010). [PDF]

  11. C. Kim, C. Favazza and L. V. Wang, “In Vivo Photoacoustic Tomography of Chemicals: High-Resolution Functional and Molecular Optical Imaging at New Depths,”  Chemical Reviews, Vol. 110(5), pp. 2756-2782 (Mar. 2010). [PDF]

  12. C. Kim, R. Qin, J. S. Xu, L. V. Wang, and R. Xu, “Multifunctional microbubbles and nanobubbles for photoacoustic and ultrasound imaging,” Journal of Biomedical Optics (Letters), Vol. 15, pp. 010510 (Feb 2010). [PDF]

  13. [E. C. Cho, C. Kim], F. Zhou, C. M. Cobley, K. H. Song, J. Y. Chen, Z. Y. Li, [L. V. Wang, and Y. N. Xia], “Measuring the optical absorption cross-sections of Au-Ag nanocages and Au nanorods by photoacoustic imaging,” Journal of Physical Chemistry C, 113 (21), 9023–9028 (May 2009). [PDF]

  14. C. H. Kim, K. H. Song, K. Maslov, and L. V. Wang, “Ultrasound-modulated optical tomography in reflection-mode with ring-shaped light illumination,” Journal of Biomedical Optics 14, 02401501-03 (Mar. 2009). [PDF]


  15. C. H. Kim, K. H. Song, and L. V. Wang, "Sentinel lymph node detection ex vivo using ultrasound-modulated optical tomography," Journal of Biomedical Optics 13, 020507-(1–3) (Mar. 2008). [PDF]

  16. C. H. Kim, and L. V. Wang, "Multi-optical-wavelength ultrasound-modulated optical tomography: a phantom study," Optics Letters 32, 2285–2287 (Aug. 2007). [PDF]

  17. C. Kim, R. J. Zemp, and L. V. Wang, "Intense acoustic bursts as a signal-enhancement mechanism in ultrasound-modulated optical tomography," Optics Letters 31, 2423–2425 (Aug. 2006). [PDF]

Kothapalli, S.-R.

  1. S.-R. Kothapalli and L. V. Wang, "Ex vivo blood vessel imaging using ultrasound-modulated optical microscopy," Journal of Biomedical Optics 14, 01401501-06 (Feb. 2009). [PDF]


  2. S.-R. Kothapalli, and L. V. Wang, "Ultrasound-modulated optical microscopy," Journal of Biomedical Optics 13, 054046-(1–8) (Oct. 2008). [PDF]

  3. S. R. Kothapalli, S. Sakadzic, C. Kim, and L. V. Wang, "Imaging optically scattering objects with ultrasound-modulated optical tomography," Optics Letters 32, 2351–2353 (Aug. 2007). [PDF]

Krumholz, A.

  1. A. Krumholz, D. M. Scherbakova, J. Xia, L. V. Wang, and V. V. Verkhusha, “Multicontrast photoacoustic in vivo imaging using near-infrared fluorescent proteins,” Scientific Reports 4 (Feb. 2014). [PDF]

  2. A. Krumholz, L. Wang, J. Yao, and L. V. Wang, “Functional photoacoustic microscopy of diabetic vasculature,” Journal of Biomedical Optics 17(6), 060502 (Jun. 2012). [PDF]

  3. [G. S. Filonov, A. Krumholz], J. Xia, J. Yao, L. V. Wang*, and V. V. Verkhusha*, “Deep-tissue photoacoustic tomography of a genetically encoded near-infrared fluorescent probe,” Angewandte Chemie International Edition 51(6), 1448–1451 (Feb. 2012). [PDF]

  4. A. Krumholz, S. J. VanVickle-Chavez, J. Yao, T. P. Fleming, W. E. Gillanders and L. V. Wang, "Photoacoustic microscopy of tyrosinase reporter gene in vivo", Journal of Biomedical Optics 16, 080503 (Aug. 2011). [PDF]

Ku, G.

  1. G. Ku, K. Maslov, L. Li, and L. V. Wang, “Photoacoustic microscopy with 2-µm transverse resolution,” Journal of Biomedical Optics 15, 021302 (Mar. 2010). [PDF]

  2. G. Ku, B. D. Fornage, X. Jin, M. Xu, K. K. Hunt, and L. V. Wang, "Thermoacoustic and photoacoustic tomography of thick biological tissues toward breast imaging," Technology in Cancer Research and Treatment 4 (5), 559-566 (Oct. 2005). [PDF]


  3. G. Ku and L. V. Wang, "Deeply penetrating photoacoustic tomography in biological tissues enhanced with an optical contrast agent," Optics Letters 30 (5), 507–509 (Mar. 2005). [PDF]

  4. G. Ku, X. Wang, X. Xie, G. Stoica, and L. V. Wang, "Imaging of tumor angiogenesis in rat brains in vivo by photoacoustic tomography," Applied Optics 44 (5), 770–775 (Feb. 2005). [PDF]

  5. G. Ku, X. Wang, G. Stoica, and L. V. Wang, "Multiple-bandwidth photoacoustic tomography," Physics in Medicine and Biology 49 (7), 1329–1338 (Mar. 2004). [PDF]

  6. G. Ku and L. V. Wang, "Scanning microwave-induced thermoacoustic tomography: signal, resolution, and contrast," Medical Physics 28, 4–10 (2001). [PDF]

  7. G. Ku, and L. V. Wang, "Scanning thermoacoustic tomography in biological tissue," Medical Physics, 27, 1195-1202 (2000). [PDF]  

Lai, P.

  1. P. Lai, L. Wang, J. Tay, and L. V. Wang, "Photoacoustically guided wavefront shaping (PAWS) for enhanced optical focusing in scattering media," Nature Photonics 9, advance online publication, doi:10.1038/nphoton.2014.322 (2015). [PDF]

  2. [Y. Liu, P. Lai], C. Ma, X. Xu, A. A. Grabar, and L. V. Wang, "Optical focusing deep inside dynamic scattering media with near-infrared time-reversed ultrasonically encoded (TRUE) light." Nat. Commun. 6:5904 doi: 10.1038/ncomms6904 (2015). [PDF]

  3. P. Lai, X. Xu, and L. V. Wang, "Dependence of optical scattering from Intralipid in gelatin-gel based tissue-mimicking phantoms on mixing temperature and time," Journal of Biomedical Optics 19(3), 035002 (2014). [PDF]

  4. [J. W. Tay, P. Lai], Y. Suzuki, and L. V. Wang, "Ultrasonically encoded wavefront shaping for focusing into random media," Scientific Reports 4, 3918(2014). [PDF]

  5. [P. Lai, Y. Suzuki, X. Xu] and L. V. Wang, "Focused fluorescence excitation with time-reversed ultrasonically encoded light and imaging in thick scattering media," Laser Physics Letters 10(7), 075604 (May 2013). [PDF]

  6. [Y. Suzuki, P. Lai], Xiao Xu and Lihong Wang, "High-sensitivity ultrasound-modulated optical tomography with a photorefractive polymer," Optics Letter 38(6), 899-901 (Mar. 2013). [PDF]

  7. P. Lai, X. Xu, and L. V. Wang, “Ultrasound-modulated optical tomography at new depth”, Journal of Biomedical Optics 17(6), 066006 (Jun. 2012). [PDF]

  8. P. Lai, X. Xu, H. Liu and L. V. Wang, "Time-reversed ultrasonically encoded optical focusing in biological tissue", Journal of Biomedical Optics 17, 036001 (Mar. 2012). [PDF]

  9. P. Lai, X. Xu, H. Liu, Y. Suzuki, and L. V. Wang, "Reflection-mode time-reversed ultrasonically encoded optical focusing into turbid media", Journal of Biomedical Optics 16(8), 080505 (Aug. 2011). [PDF]

Li, C. Y.

  1. C. Li, J. M. Yang, R. Chen, C. H. Yeh, L. Zhu, K. Maslov, Q. Zhou, K. K. Shung, and L. V. Wang, “Urogenital photoacoustic endoscope,” Optics Letters 39 (6), 1473–1476 (Mar. 2014). [PDF]

  2. [J. M. Yang, C. Li], R. Chen, Q. Zhou, K. K. Shung, and L. V. Wang, “Catheter-based photoacoustic endoscope,” Journal of Biomedical Optics 19 (6), 066001 (Jun. 2014). [PDF]

  3. C. Li, L. Gao, Y. Liu, and L. V. Wang, “Optical sectioning by wide-field photobleaching imprinting microscopy,” Applied Physics Letter 103, 183703(Oct. 2013). [PDF]

  4. C. Li, C. Zhang, L. Gao, A. G. Uribe, and L. V. Wang, “Photoacoustic recovery after photothermal bleaching in living cells,” Journal of Biomedical Optics 18(10), 106004 (Oct. 2013). [PDF]

  5. [L. Gao, C. Zhang, C. Li], and L. V. Wang, “Intracellular temperature mapping with fluorescence-assisted photoacoustic-thermometry,” Applied Physics Letters 102(19), 193705 (May 2013). [PDF]

Li, C. H.

  1. C. H. Li, L. V. Wang,  A. Aguirre, J. Gamelin, A. Maurudis, and Q. Zhu, “Real-time photoacoustic tomography of cortical hemodynamics in small animals,” Journal of Biomedical Optics 15, 010509 (Feb. 16, 2010). [PDF]

  2. C. H. Li and L. V. Wang, “Photoacoustic tomography and sensing in biomedicine,” Physics in Medicine and Biology 54, R59–R97 (Sep. 2009). [PDF]

  3. C. H. Li and L. V. Wang, “Photoacoustic tomography of the mouse cerebral cortex with a high-numerical-aperture-based virtual point detector,” Journal of Biomedical Optics 14 (2), 02404701–03 (Apr. 2009). [PDF]

  4. C. H. Li, G. Ku, and L. V. Wang, "Negative lens concept for photoacoustic tomography," Physical Review E 78, 021901-(1–5) (Aug. 2008). [PDF]


  5. C. H. Li, and L. V. Wang, "High-numerical-aperture-based virtual point detectors for photoacoustic tomography," Applied Physics Letters 93, 033902 (Jul. 2008). [PDF]

  6. C. H. Li, M. Pramanik, G. Ku, and L. V. Wang, "Image distortion in thermoacoustic tomography caused by microwave diffraction," Physical Review E 77, 031923-(1–7) (Mar. 2008). [PDF]

Li, G.

  1. G. Li, L. Li, L. Zhu, J. Xia, and L.V. Wang, "Multiview Hilbert transformation for full-view photoacoustic computed tomography using a linear array", Journal of Biomedical Optics 20(6), 066010 (2015). [PDF]

  2. [L. Wang, G. Li], J. Xia, and L.V. Wang, “Ultrasonic-heating–encoded photoacoustic tomography with virtually augmented detection view”, Optica 2(4), 307-312 (2015). [PDF]

  3. [Y. Zhou, G. Li], L. Zhu, C. Li, L. A. Cornelius, and L. V. Wang, “Handheld photoacoustic probe to detect both melanoma depth and volume at high speed in vivo,” J. Biophotonics, 1-7 (2015). DOI 10.1002/jbio.201400143. [PDF]

  4. G. Li, J. Xia, K. Wang, K. Maslov, M. A. Anastasio, and L. V. Wang, "Tripling the detection view of high-frequency linear-array-based photoacoustic computed tomography by using two planar acoustic reflectors," Quantitative Imaging in Medicine and Surgery 5, 57-62 (2014). [PDF]

  5. G. Li, K. I. Maslov, and L. V. Wang, “Reflection-mode multifocal optical-resolution photoacoustic microscopy,” Journal of Biomedical Optics 18(3), 030501 (Mar. 2013). [PDF]

Li, H.

  1. H. Li, J. Tian, F. Zhu, W. Cong, L. V. Wang, E. A. Hoffman, G. Wang, "A mouse optical simulation environment (MOSE) to investigate bioluminescent phenomena in the living mouse with the Monte Carlo method," Academic Radiology 11(9), 1029–1038 (Sep. 2004). [PDF]


  2. H. Li and L. V. Wang, "Autocorrelation of scattered laser light for ultrasound-modulated optical tomography in dense turbid media," Applied Optics 41 (22), 4739–4742 (August 2002). [PDF]

Li, J.

  1. J. Li and L. V. Wang, "Ultrasound-modulated optical computed tomography of biological tissues," Applied Physics Letters 84 (9), 1597–1599 (Mar. 1, 2004). [PDF]


  2. J. Li, S. Sakadzic, G. Ku, and L. V. Wang, "Transmission- and side-detection configurations in ultrasound-modulated optical tomography of thick biological tissues," Applied Optics, 42 (19), 4088-4094 (July 2003). [PDF]

  3. J. Li, G. Ku, and L. V. Wang, "Ultrasound-modulated optical tomography of biological tissue using contrast of laser speckles," Applied Optics 41 (28), 6030–6035 (October 2002). [PDF]

  4. J. Li, G. Yao, and L. V. Wang, "Degree of polarization in laser speckles from turbid media and implications in tissue optics," Journal of Biomedical Optics 7 (3), 307–312 (July 2002). [PDF]

  5. J. Li and L. V. Wang, "Methods for parallel-detection-based ultrasound-modulated optical tomography," Applied Optics 41 (10), 2079–2084 (2002). [PDF]

Li, L.

  1. [X. Cai, L. Li], A. Krumholz, Z. Guo, T. N. Erpelding, C. Zhang, Y. Zhang, Y. Xia, and L. V. Wang, “Multi-scale molecular photoacoustic tomography of gene expression,” PLoS ONE 7(8), e43999 (Aug. 2012). [PDF]

  2. [B. Rao, L. Li], K. I. Maslov, and L. V. Wang, “Hybrid-scanning optical-resolution photoacoustic microscopy system for in vivo vasculature imaging,” Optics Letters 35 (10), 1521–1523 (May 2010). [PDF]

  3. L. Li, K. Maslov, G. Ku, and L. V. Wang, “Three-dimensional combined photoacoustic and optical coherence microscopy for in vivo microcirculation studies,” Optics Express 17 (19), 16450–16455 (Sep. 2009). [PDF]

  4. [Z. Guo, L. Li], and L. V. Wang, “On the speckle-free nature of photoacoustic tomography,” Medical Physics 36 (9), 4084–4088 (Aug. 2009). [PDF]

  5. L. Li, H. F. Zhang, R. J. Zemp, K. Maslov, and L. V. Wang, "Simultaneous imaging of a lacZ-marked tumor and microvasculature morphology in vivo by dual-wavelength photoacoustic microscopy," Journal of Innovative Optical Health Sciences 1, 207–215 (Oct. 2008). [PDF]


  6. L. Li, and L. V. Wang, "Optical coherence computed tomography," Applied Physics Letters 91, 141107-(1–3) (Oct. 2007). [PDF]

  7. L. Li, R. Zemp, G. Lungu, G. Stoica, and L. V. Wang, "Photoacoustic imaging of lacZ gene expression in vivo," Journal of Biomedical Optics 12(02), 020504 (Mar. 2007). [PDF]

Li, Lei

  1. [M. Zhou, L. Li], J. Yao, R. R. Bouchard, L. V. Wang, and C. Li, "Nanoparticles for Photoacoustic Imaging of Vasculature," Design and Applications of Nanoparticles in Biomedical Imaging, 337-356 (2017). [Request PDF]

  2. L. Li, J. Yao, and L. V. Wang, 2016, "Photoacoustic Tomography Enhanced by Nanoparticles," Wiley Encyclopedia of Electrical and Electronics Engineering, 1-14. [Request PDF]

  3. L. Li, J. Xia, A. Garcia-Uribe, Q. Sheng, M. Anastasio, and L. V. Wang, “Label-free photoacoustic tomography of whole mouse brain structures ex vivo,” Neurophoton. 3(3), 035001(2016). [Request PDF]

  4. [J. Yao, A. A. Kaberniuk, L. Li], D. M. Shcherbakova, R. Zhang, L. Wang, G. Li, V. V. Verkhusha, and L. V. Wang, “Multiscale photoacoustic tomography using reversibly switchable bacterial phytochrome as a near-infrared photochromic probe,” Nature Methods, (2016) doi:10.1038/nmeth.3656. [Request PDF]

  5. [L. Zhu, L. Li], L. Gao, L. V. Wang, "Multiview optical resolution photoacoustic microscopy", Optica 1(4), 217-222(2014). [PDF]

  6. L. Li, C. Yeh, S. Hu, L. Wang, B. T. Soetikno, R. Chen, Q. Zhou, K. K. Shung, K. I. Maslov, and L. V. Wang, "Fully motorized optical-resolution photoacoustic microscopy," Opt. Lett. 39, 2117-2120 (2014). [PDF]

Li, M. L.

  1. M. L. Li, J. C. Wang, J. A. Schwartz, K. L. Gill-Sharp, G. Stoica, and L. V. Wang, “In vivo photoacoustic microscopy of nanoshell extravasation from solid tumor vasculature,” Journal of Biomedical Optics 14, 01050701-03 (Feb. 2009). [PDF]

  2. M. L. Li, J. T. Oh, X. Y. Xie, G. Ku, W. Wang, C. Li, G. Lungu, G. Stoica, and L. V. Wang, "Simultaneous molecular and hypoxia imaging of brain tumors in vivo using spectroscopic photoacoustic tomography," Proceedings of IEEE 96 (3), 481–489 (Mar. 2008). [PDF]

  3. M.-L. Li, H. Zhang, K. Maslov, G. Stoica, and L. V. Wang, "Improved in-vivo photoacoustic microscopy based on a virtual detector concept," Optics Letters 31 (4), 474–476 (Feb. 15. 2006).[PDF]

Li, Y. Z.

  1. Y. Z. Li, P. Hemmer, C. H. Kim, H. L. Zhang, and L. V. Wang, "Detection of ultrasound-modulated diffuse photons using spectral-hole burning," Optics Express 16, 14862–14874 (Sep. 2008).[PDF]

  2. Y. Z. Li, H. L. Zhang, C. H. Kim, K. H. Wagner, P. Hemmer, and L. V. Wang, "Pulsed ultrasound-modulated optical tomography using spectral-hole burning as a narrowband spectral filter," Applied Physics Letters 93, 011111-(1–3) (Jul. 2008).[PDF]

Liang, J.

  1. [L. Zhu, Y. Chen, J. Liang], Q. Xu, L. Gao, C. Ma, and L. V. Wang, “Space- and intesity- constrained reconstruction for compressed ultrafast photography,” Optica 3(7), 694-697 (2016). [Request PDF]

  2. J. Liang, L. Gao, P. Hai, C. Li, and L. V. Wang, “Encrypted Three-dimensional Dynamic Imaging using Snapshot Time-of-flight Compressed Ultrafast Photography,” Scientific Reports 5, 15504 (2015). [PDF]

  3. [L. Gao, J. Liang], C. Li, and L. V. Wang, "Single-shot compressed ultrafast photography at one hundred billion frames per second, Nature 516,” 74-77 (2014). [PDF]

  4. [J. Tay, J. Liang], and L. Wang, "Amplitude-masked photoacoustic wavefront shaping and application in flowmetry," Opt. Lett. 39, 5499-5502 (2014). [PDF]

  5. J. Liang, L. Gao, C. Li, and L. Wang, "Spatially Fourier-encoded photoacoustic microscopy using a digital micromirror device," Opt. Lett. 39, 430-433 (2014). [PDF]

  6. [Y. Zhou, J. Liang], K. I. Maslov, and L. V. Wang, "Calibration-free in vivo transverse blood flowmetry based on cross correlation of slow time profiles from photoacoustic microscopy," Opt. Lett. 38(19), 3882-3885 (2013). [PDF]

  7. J. Liang, Y. Zhou, K. I. Maslov, and L. V. Wang, "Cross-correlation-based transverse flow measurements using optical resolution photoacoustic microscopy with a digital micromirror device," J. Biomed. Opt. 18(9), 096004 (2013). [PDF]

  8. J. Liang, Y. Zhou, A. W. Winkler, L. Wang, K. I. Maslov, C. Li, and L. V. Wang, "Random-access optical-resolution photoacoustic microscopy using a digital micromirror device," Opt. Lett. 38, 2683-2686 (2013). [PDF]

Lin, L.

  1. L. Lin, J. Yao, R. Zhang, C. C. Chen, C. H. Huang, Y. Li, L. Wang, W. Chapman. J. Zou, and L. V. Wang, "High-speed photoacoustic microscopy of mouse cortical microhemodynamics," J. Biophoton. (2016). [Request PDF]

  2. [L. Lin, P. Zhang], S. Xu, J. Shi, L. Li, J. Yao, L. Wang, J. Zou, and L. V. Wang, "Handheld optical-resolution photoacoustic microscopy," J. of Biomed. Opt. 22(4), 041002(2016). [Request PDF]

  3. L. Lin, J. Yao, L. Li, and L. V. Wang, “In vivo photoacoustic tomography of myoglobin oxygen saturation”, J. of Biomed. Opt. 21(6), 061002(2015). [PDF]

  4. L. Lin, J. Xia, T.W. Wong, L. Li, and L. V. Wang, “In vivo deep-brain imaging of rats using oral-cavity illuminated photoacoustic computed tomography”, J. of Biomed. Opt. 20(1), 016019-016019 (2015). [PDF]

Lin, S. P.

  1. S.-P. Lin, L. V. Wang, S. L. Jacques, and F. K. Tittel, "Measurement of tissue optical properties using oblique incidence optical fiber reflectometry," Applied Optics 36, 136-143 (1997). [PDF]

Liu, H.

  1. H. Liu, X. Xu, P. Lai, and L. V. Wang, "Time-reversed ultrasonically encoded optical focusing into tissue-mimicking media with thickness up to 70 mean free paths", Journal of Biomedical Optics 16(8), 086009 (Aug. 2011). [PDF]

  2. [X. Xu, H. Liu], and L. V. Wang, “Time-reversed ultrasonically encoded optical focusing into scattering media,Nature Photonics 5, 154-157 (Mar. 2011). Published online on January 16, 2011. [PDF]

Liu, Y.

  1. [Y. Shen, Y. Liu], C. Ma, and L. V. Wang, "Sub-Nyquist sampling boosts targeted light transport through opaque scattering media," Optica 4, 97-102 (2017). [Reqest PDF]

  2. [Y. Shen, Y. Liu], C. Ma, and L. V. Wang, "Focusing light through biological tissue and tissue-mimicking phantoms up to 9.6 cm in thickness with digital optical phase conjugation," J. Biomed. Opt. 21(8), 085001 (2016). [Reqest PDF]

  3. Y. Liu, Y. Shen, C. Ma, J. Shi, and L. V. Wang, "Lock-in camera based heterodyne holography for ultrasound-modulated optical tomography inside dynamic scattering media," Applied Physics Letters 108, 231106 (2016). [Reqest PDF]

  4. Y. Liu, C. Ma, Y. Shen, and L. V. Wang, "Bit-efficient, sub-millisecond wavefront measurement using a lock-in camera for time-reversal based optical focusing inside scattering media," Opt Lett 41, 1321-1324 (2016). [Reqest PDF]

  5. [Y. Shen, Y. Liu], C. Ma, and L. V. Wang, "Focusing light through scattering media by full-polarization digital optical phase conjugation," Opt. Lett. 41, 1130-1133 (2016). [Reqest PDF]

  6. Y. Liu, P. Lai, C. Ma, X. Xu, A. A. Grabar, and L. V. Wang, "Optical focusing deep inside dynamic scattering media with near-infrared time-reversed ultrasonically encoded (TRUE) light." Nat. Commun. 6:5904 doi: 10.1038/ncomms6904 (2015). [PDF]

  7. Y. Liu, C. Zhang, and L. V. Wang. "Effects of light scattering on optical-resolution photoacoustic microscopy,” Journal of Biomedical Optics 17(12), 126014 (Dec. 2012). [PDF]

Lou, L.

  1. L. Lou, L. V. Wang, L. P. F. Chibante, R. T. Laaksonen, P. J. Nordlander, and R. E. Smalley, "Electronic structure of small GaAs clusters," Journal of Chemical Physics 94, 8015-8020 (1991).

Lungu, G. F.

  1. G. F. Lungu, M. L. Li, X. Y. Xie, L. V. Wang, and G. Stoica, "In vivo imaging and characterization of hypoxia-induced neovascularization and tumor invasion," International Journal of Oncology 30, 45–54 (Jan. 2007). [PDF]

Ma, C.

  1. C. Ma, F. Zhou, Y. Liu, and L. V. Wang, “Single-exposure optical focusing inside scattering media using binarized time-reversed adapted perturbation,” Optica 2, 869-876 (2015). [PDF]

  2. C. Ma, X. Xu, and L. V. Wang, “Analog time-reversed ultrasonically encoded light focusing inside scattering media with a 33,000× optical power gain,” Scientific Reports 5, 8896 (2015). [PDF]

  3. C. Ma, X. Xu, Y. Liu, and L. V. Wang, “Time-reversed adapted-perturbation (TRAP) optical focusing onto dynamic objects inside scattering media,” Nature Photon. 8, 931–936 (2014). [PDF]

Ma, J.

  1. J. Ma, J. Shi, P. Hai, Y. Zhou, and L. V. Wang, Grueneisen relaxation photoacoustic microscopy in vivo," J. Biomed. Opt. 21(6),066005 (2016). [Request PDF]

Marquez, G.

  1. G. Marquez, L. V. Wang, C. Wang, and Z. Hu, "Development of tissue-simulating optical phantoms: poly-N-isopropylacrylamide solution entrapped inside a hydrogel," Physics in Medicine and Biology 44, 309-318 (1999). [PDF]

  2. G. Marquez, L. V. Wang, S.-P. Lin, J. A. Schwartz, and S. L. Thomsen, "Anisotropy in the absorption and scattering spectra of chicken breast tissue," Applied Optics 37, 798-805 (1998). [PDF]

  3. G. Marquez and L. V. Wang, "White light oblique incidence reflectometer for measuring absorption and reduced scattering spectra of tissue-like turbid media," Optics Express 1, 454-460 (1997). [PDF]

Maslov, K.

  1. [V. Tsytsarev, K. I. Maslov, J. Yao], A. R. Parameswar, A. V. Demchenko*, and L. V. Wang*, "In vivo imaging of epileptic activity using 2-NBDG, a fluorescent deoxyglucose analog," Journal of Neuroscience Methods 203, 136-140 (Jan. 2012). [PDF]

  2. [S. Hu, K. Maslov], and L. V. Wang, "Second-generation optical-resolution photoacoustic microscopy with improved sensitivity and speed," Optics Letters 36(7), 1134–1136 (Apr. 2011). [PDF]

  3. [K. Maslov, H. F. Zhang], and L. V. Wang, “Photoacoustic generation of focused quasi-unipolar pressure pulses,” Journal of Innovative Optical Health Sciences 3(4), 247–253 (Nov. 2010). [PDF]

  4. K. Maslov, H. F. Zhang, S. Hu, and L. V. Wang, "Optical-resolution photoacoustic microscopy for in vivo imaging of single capillaries," Optics Letters 33, 929–931 (Apr. 2008). [PDF]

  5. K. Maslov, and L. V. Wang, "Photoacoustic imaging of biological tissue with intensity-modulated continuous-wave laser," Journal of Biomedical Optics 13, 024006-(1–5) (Mar. 2008). [PDF]

  6. K. Maslov, H. F. Zhang, and L. V. Wang, "Effects of wavelength-dependent fluence attenuation on the noninvasive photoacoustic imaging of hemoglobin oxygen saturation in subcutaneous vasculature in vivo," Inverse Problems 23 (6) S113–S122 (Dec. 2007). [PDF]

  7. K. Maslov, G. Stoica, and L. V. Wang, "In vivo dark-field reflection-mode photoacoustic microscopy," Optics Letters 30 (6), 625–627 (Mar. 2005). [PDF]

Matthews, T.

  1. T. Matthews, C. Zhang, D. Yao, K. Maslov, and L. V. Wang, “Label-free photoacoustic microscopy of peripheral nerves,” Journal of Biomedical Optics 19(1), 016004 (Jan. 2014). [PDF]

Mehrubeoglu, M.

  1. M. Mehrubeoglu, N. Kehtarnavaz, G. Marquez, M. Duvic, and L. V. Wang, " Skin lesion classification using diffuse reflectance spectroscopic imaging with oblique incidence," Applied Optics 41 (1), 182–192 (2002). [PDF]

  2. M. Mehrubeoglu, N. Kehtarnavaz, S. Rastegar, and L. V. Wang, "Effect of molecular concentrations in tissue-simulating phantoms on images obtained using diffuse reflectance polarimetry," Optics Express 3, 286-297 (1998). [PDF]

Nasiriavanaki, M.

  1. M. Nasiriavanaki, J. Xia, H. Wan, A. Q. Bauer, J. P. Culver, and L. V. Wang, “High-resolution photoacoustic tomography of resting-state functional connectivity in the mouse brain,” Proceedings of the National Academy of Sciences 111, no. 1 (2014): 21-26. [PDF]

Nie, L.

  1. [L. Nie, X. Cai], K. Maslov, A. Garcia-Uribe, M. A. Anastasio and L. V. Wang, “Photoacoustic tomography through a whole adult human skull with a photon recycler,” Journal of Biomedical Optics 17(11), 110506 (Nov. 2012). [PDF]

  2. [C. Huang, L. Nie], R. W. Schoonover, Z. Guo, C. O. Schirra, M. A. Anastasio, and L. V. Wang, “Aberration correction for transcranial photoacoustic tomography of primates employing adjunct image data,”  Journal of Biomedical Optics 17(6), 066016 (Jun. 2012). [PDF]

  3. [C. Huang, L. Nie], R. W. Schoonover, L. V. Wang, and M. A. Anastasio, “Photoacoustic computed tomography correcting for heterogeneity and attenuation,” Journal of  Biomedical Optics  17, 061211 (May 2012). [PDF]

  4. L. Nie, Z. Guo, and L. V. Wang, “Photoacoustic tomography of monkey brain using virtual point ultrasonic transducers,” Journal of Biomedical Optics 16(7), 076005 (Jul. 2011). [PDF]

Ntziachristos, V.

  1. V. Ntziachristos, J. Ripoll, L. V. Wang, and R. Weissleder, "Looking and listening to light: the revolution of photonic imaging," Nature Biotechnology 23 (3), 313–320 (Mar. 2005). [PDF]

Oh, J. T.

  1. J. T. Oh, M. L. Li, H. F. Zhang, K. Maslov, G. Stoica, and L. V. Wang, "Three-dimensional imaging of skin melanoma in vivo by dual-wavelength photoacoustic microscopy," Journal of Biomedical Optics 11, 034032 (May/Jun. 2006). [PDF]

Pan, D.

  1. [D. Pan, M. Pramanik], A. Senpan, X. Yang, K. H. Song, M. J. Scott, H. Zhang, P. J. Gaffney, S. A. Wickline, [L. V. Wang, and Gregory M. Lanza], “Molecular photoacoustic tomography with colloidal nanobeacons,” Angewandte Chemie International Edition (Angew. Chem. Int. Ed.), 48, 4170–4173 (May 2009). DOI: 10.1002/anie.200805947. [PDF]

Pereda-Cubián, D.

  1. D. Pereda-Cubián, M. Todorović, J. L. Arce-Diego, and L. V. Wang, "Evaluation of the magneto-optical effect in biological tissue models using optical coherence tomography," Journal of Biomedical Optics 12, 060502-(1–3) (Nov. 2007). [PDF]

Pramanik, M.

  1. [D. Pan*, M. Pramanik], A. Senpan, John S. Allen, S. A. Wickline, L. V. Wang*, and G. M. Lanza, “Molecular photoacoustic imaging of angiogenesis with integrin targeted gold nanobeacons,” The Federation of American Societies for Experimental Biology (FASEB) Journal 25 (3), 875-882 (Mar. 2011). [PDF]

  2. [D. Pan*, M. Pramanik], A. Senpan, S. Ghosh, S. A. Wickline, L. V. Wang*, and G. M. Lanza, “Near infrared photoacoustic detection of sentinel lymph nodes with gold nanobeacons,” Biomaterials 31, 4088–4093 (Feb. 20, 2010). [PDF]

  3. M. Pramanik, and L. V. Wang, "Thermoacoustic and photoacoustic sensing of temperature," Journal of Biomedical Optics 14 (5), 05402401–07 (Oct. 12, 2009). [PDF]

  4. M. Pramanik, M. Swierczewska, D. Green, [B. Sitharaman, and L. V. Wang], "Single-walled carbon nanotubes as a multimodal—thermoacoustic and photoacoustic—contrast agent," Journal of Biomedical Optics 14 (3), 03401801–08 (Jun. 2009). [PDF]

  5. [D. Pan, M. Pramanik], A. Senpan, X. Yang, K. H. Song, M. J. Scott, H. Zhang, P. J. Gaffney, S. A. Wickline, [L. V. Wang, and Gregory M. Lanza], “Molecular photoacoustic tomography with colloidal nanobeacons,” Angewandte Chemie, 48, 4170–4173 (May 2009). DOI: 10.1002/anie.200805947. [PDF]

  6. M. Pramanik, K. H. Song, M. Swierczewska, D. Green, B. Sitharaman, and L. V. Wang, “In vivo carbon nanotube-enhanced non-invasive photoacoustic mapping of the sentinel lymph node,” Physics in Medicine and Biology, 54, 3291–3301 (May 2009). [PDF]

  7. M. Pramanik, G. Ku, and L. V. Wang, "Tangential resolution improvement in thermoacoustic and photoacoustic tomography using a negative acoustic lens," Journal of Biomedical Optics 14, 02402801-05 (Mar. 2009). [PDF]


  8. M. Pramanik, G. Ku, C. H. Li, and L. V. Wang, "Design and evaluation of a novel breast cancer detection system combining both thermoacoustic (TA) and photoacoustic (PA) tomography," Medical Physics 35, 2218–2223 (Jun. 2008). [PDF]

Rakovic, M. J.

  1. M. J. Rakovic, G. W. Kattawar, M. Mehrubeoglu, B. D. Cameron, L. V. Wang, S. Rastegar, and G. L. Cote, "Light backscattering polarization patterns from turbid media: theory and experiment," Applied Optics 38, 3399-3408 (1999). [PDF]

Rao, B.

  1. B. Rao, F. Soto, D. Kerschensteiner, and L. V. Wang, “Integrated photoacoustic, confocal, and two-photon microscope,” Journal of Biomedical Optics 19 (3), 036002 (Mar. 2014). [PDF]

  2. B. Rao, K. Maslov, A. Danielli, R. Chen, K. K. Shung, Q. Zhou, and L. V. Wang, "Real-time four-dimensional optical-resolution photoacoustic microscopy with Au nanoparticle-assisted subdiffraction-limit resolution," Optics Letters 36, 1137-1139 (Mar. 2011).  [PDF]

  3. [B. Rao, L. Li], K. I. Maslov, and L. V. Wang, “Hybrid-scanning optical-resolution photoacoustic microscopy system for in vivo vasculature imaging,” Optics Letters 35 (10), 1521–1523 (May 2010). [PDF]

Sakadzic, S.

  1. S. Sakadzic, and L. V. Wang, "Correlation transfer equation for multiply scattered light modulated by an ultrasonic pulse," Journal of Optical Society of America A 24, 2797–2806 (Sep. 2007). [PDF]

  2. S. Sakadzic and L. V. Wang, "Correlation transfer equation for ultrasound-modulated multiply scattered light," Physical Review E 74, 036618 (Sep. 2006). [PDF]

  3. S. Sakadzic and L. V. Wang, "Correlation transfer and diffusion of ultrasound-modulated multiply scattered light," Physical Review Letters 96, 163902 (Apr. 2006). [PDF]

  4. S. Sakadzic and L. V. Wang, "Modulation of multiply scattered coherent light by ultrasonic pulses: an analytical model," Physical Review E 72 (3): 036620 (Sep. 2005). [PDF]

  5. S. Sakadzic and L. V. Wang, "High-resolution ultrasound-modulated optical tomography in biological tissues," Optics Letters 29 (23), 2770–2772 (Dec. 1, 2004). [PDF]

  6. S. Sakadzic and L. V. Wang, "Ultrasonic modulation of multiply scattered coherent light: an analytical model for anisotropically scattering media" Physical Review E 66 (2), 026603-(1–9) (August 2002). [PDF]

Shah, R. K.

  1. R. K. Shah, B. Nemati, L. V. Wang, and S. M. Shapshay, "Optical-thermal simulation of irradiated tonsillar tissue," Lasers in Surgery and Medicine 28, 316–319 (2001). [PDF]


  2. R. K. Shah, B. Nemati, L. V. Wang, M. S. Volk, and S. M. Shapshay, "Optical-thermal simulation of human tonsillar tissue irradiation: clinical implications," Lasers in Surgery and Medicine 27, 269–273 (2000). [PDF]

Shen, Q.

  1. Q. Shen and L. V. Wang, "Two-dimensional imaging of dense tissue-simulating turbid media by use of sonoluminescence," Applied Optics 38, 246-252 (1999). [PDF]

Shen, Y.

  1. [Y. Shen, Y. Liu], C. Ma, and L. V. Wang, "Sub-Nyquist sampling boosts targeted light transport through opaque scattering media," Optica 4, 97-102 (2017). [Reqest PDF]

  2. [Y. Shen, Y. Liu], C. Ma, and L. V. Wang, "Focusing light through biological tissue and tissue-mimicking phantoms up to 9.6 cm in thickness with digital optical phase conjugation," J. Biomed. Opt. 21(8), 085001 (2016). [Reqest PDF]

  3. Y. Shen, Y. Liu, C. Ma, and L. V. Wang, "Focusing light through scattering media by full-polarization digital optical phase conjugation," Opt. Lett. 41, 1130-1133 (2016). [Reqest PDF]

Shi, J.

  1. [Y. He, L. Wang, J. Shi], J. Yao, L. Li, R. Zhang, C. H. Huang, J. Zou, and L. V. Wang, "In vivo label-free photoacoustic flow cytography and on-the-spot laser killing of single circulating melanoma cells," Sci. Rep. 6, 39616 (2016). [PDF]

  2. J. Shi, L. Wang, C. Noordam, and L. V. Wang, “Bessel-beam Grueneisen relaxation photoacoustic microscopy with extended depth of field,” Journal of Biomedical Optics 20(11), 116002 (2015). [PDF]

Sivaramakrishnan, M.

  1. M. Sivaramakrishnan, K. Maslov, H. F. Zhang, G. Stoica, and L. V. Wang, "Limitations of quantitative photoacoustic measurements of blood oxygenation in small vessels," Physics in Medicine and Biology 52(5), 1349–1361 (Mar. 2007). [PDF]

Song, K. H.

  1. K. H. Song, C. H. Kim, K. Maslov, and L. V. Wang, “Noninvasive in vivo spectroscopic nanorod-contrast photoacoustic mapping of sentinel lymph nodes,” European Journal of Radiology 70,227–231 (May 2009). [PDF]

  2. K. H. Song, C. H. Kim, C. M. Cobley, [Y. N. Xia, and L. V. Wang], “Near-infrared gold nanocages as a new class of tracers for photoacoustic sentinel lymph node mapping on a rat model,” Nano Letters 9 (1), 183–188 (Jan. 2009). [PDF]

  3. K. H. Song, and L. V. Wang, "Noninvasive photoacoustic imaging of the thoracic cavity and the kidney in small and large animals," Medical Physics 35, 4524–4529 (Oct. 2008). [PDF]

  4. K. H. Song, E. W. Stein, J. A. Margenthaler, and L. V. Wang, "Noninvasive photoacoustic identification of sentinel lymph nodes containing methylene blue in vivo in a rat model," Journal of Biomedical Optics 13, 054033-(1–6) (Sep. 2008). [PDF]

  5. K. Song, and L. V. Wang, "Deep reflection-mode photoacoustic imaging of biological tissue," Journal of Biomedical Optics 12, 060503-(1–3) (Nov. 2007). [PDF]

  6. K. H. Song, G. Stoica, and L. V. Wang, "In vivo three-dimensional photoacoustic tomography of a whole mouse head," Optics Letters 31, 2453–2455 (Aug. 2006). [PDF]

Song, L.

  1. L. Song, K. Maslov, and L. V. Wang, “Multifocal optical-resolution photoacoustic microscopy in vivo,” Optics Letters 36 (7), 1236–1238 (Apr. 2011). [PDF]
     

  2. L. Song, K. Maslov, and L. V. Wang, “Section-illumination photoacoustic microscopy for dynamic 3-D imaging of microcirculation in vivo,” Optics Letters 35, 1482 (Apr. 2010).  [PDF]
     

  3. L. Song, K. Maslov, K. K. Shung, and L. V. Wang, “Ultrasound-array-based real-time photoacoustic microscopy of human pulsatile dynamics in vivo,” Journal of Biomedical Optics 15, 021303 (Mar. 2010). [PDF]
     

  4. L. Song, C. H. Kim, K. Maslov, K. K. Shung, and L. V. Wang, “High-speed dynamic 3-D photoacoustic imaging of sentinel lymph node in a murine model using an ultrasound array,” Medical Physics 36 (8), 3724–3729 (Aug. 2009). [PDF]
     

  5. [R. J. Zemp, L. Song], R. Bitton, K. K. Shung, and L. V. Wang, "Realtime photoacoustic microscopy of murine cardiovascular dynamics," Optics Express 16, 18551–18556 (Oct. 2008). [PDF]


  6.  
  7. L. Song, K. Maslov, R. Bitton, K. K. Shung, and L. V. Wang, "Fast 3-D dark-field reflection-mode photoacoustic microscopy in vivo with a 30-MHz ultrasound linear array," Journal of Biomedical Optics 13, 054028-(1–5) (Sep. 2008). [PDF]

Stein, E. W.

  1. E. W. Stein, K. Maslov, and L. V. Wang, "Noninvasive, in vivo imaging of the mouse brain using photoacoustic microscopy," Journal of Applied Physics 105(10), 10202701–10202705 (May 2009). [PDF]

  2. E. W. Stein, K. Maslov, and L. V. Wang, “Noninvasive, in vivo imaging of blood-oxygenation dynamics within the mouse brain using photoacoustic microscopy,” Journal of Biomedical Optics 14, 02050201-03 (Mar. 2009). [PDF]

Suzuki, Y.

  1. Y. Suzuki, J. W. Tay, Q. Yang, and L. V. Wang, “Continuous scanning of a time-reversed ultrasonically encoded optical focus by reflection-mode digital phase conjugation,” Optics Letters 39 (12), 3441–3444 (Jun. 2014). [PDF]

  2. [P. Lai, Y. Suzuki, X. Xu] and L. V. Wang, "Focused fluorescence excitation with time-reversed ultrasonically encoded light and imaging in thick scattering media," Laser Physics Letters 10(7), 075604 (May 2013). [PDF]

  3. [Y. Suzuki, P. Lai], Xiao Xu and Lihong Wang, "High-sensitivity ultrasound-modulated optical tomography with a photorefractive polymer," Optics Letter 38(6), 899-901 (Mar. 2013). [PDF]

  4. Y. Suzuki, X. Xu, P. Lai, and L. V. Wang, “Energy enhance ment in time-reversed ultrasonically encoded optical focusing using a photorefractive polymer,” Journal of Biomedical Engineering 17(8), 080507 (Aug. 2012). [PDF]

Tay, J.

  1. [P. Lai, L. Wang, J. Tay], and L. V. Wang, "Photoacoustically guided wavefront shaping (PAWS) for enhanced optical focusing in scattering media," Nature Photonics 9, advance online publication, doi:10.1038/nphoton.2014.322 (2015). [PDF]

  2. J. Tay, J. Liang, and L. Wang, "Amplitude-masked photoacoustic wavefront shaping and application in flowmetry," Opt. Lett. 39, 5499-5502 (2014). [PDF]

  3. J. W. Tay, P. Lai, Y. Suzuki, and L. V. Wang, "Ultrasonically encoded wavefront shaping for focusing into random media," Scientific Reports 4, 3918(2014). [PDF]

Todorovic, M.

  1. M. Todorovic, S. Jiao, G. Stoica, and L. V. Wang, "Preliminary study on skin cancer detection in Sencar mice using Mueller optical coherence tomography," Journal of Innovative Optical Health Sciences 2 (3), 289–294 (Sep. 2009). [PDF]

  2. M. Todorovic, S. Jiao, J. Ai, D. Pereda-Cubian, G. Stoica, and L. V. Wang, "In vivo burn imaging using Mueller optical coherence tomography," Optics Express 16, 10279–10284 (Jul. 2008). [PDF]

  3. M. Todorović, S. Jiao, L. V. Wang, and G. Stoica, "Determination of local polarization properties of biological samples in the presence of diattenuation using Mueller optical coherence tomography," Optics Letters 29 (20), 2402–2404 (Oct. 15, 2004). [PDF]

Tunnell, J. W.

  1. J. W. Tunnell, L. V. Wang, and B. Anvari, "Optimum pulse duration and radiant exposure for laser therapy of dark skin: a theoretical study," Applied Optics, 42 (7) 1367-1378 (March 2003). [PDF]

Wang, L. V.

  1. L. V. Wang and J. Yao, "A practical guide to photoacoustic tomography in the life sciences," Nature Methods 13(8)–627-637 (2016). [PDF]

  2. L. V. Wang and L. Gao, "Photoacoustic Microscopy and Computed Tomography: From Bench to Bedside," Annu. Rev. Biomed. Eng. 16:155–85(2014). [PDF]

  3. L. V. Wang and S. Hu, “Photoacoustic tomography: in vivo imaging from organelles to organs,” Science 335, 1458–1462 (Mar. 2012). [PDF]

  4. L. V. Wang, “Multiscale photoacoustic microscopy and computed tomography,” Nature Photonics 3 (9), 503–509 (Sep. 2009). [PDF]

  5. L. V. Wang, "Prospects of photoacoustic tomography," Medical Physics 35 (12), 5758–5767 (Dec. 2008). [PDF]

  6. L. V. Wang, “Photoacoustic tomography and microscopy,” Optics & Photonics News 19 (7-8), 36–41 (July-Aug. 2008).

  7. L. V. Wang, "Tutorial on photoacoustic microscopy and computed tomography," IEEE Journal of Selected Topics on Quantum Electronics 14 (1), 171–179 (Jan. 2008). [PDF]

  8. L. V. Wang and X. Yang, "Boundary conditions in photoacoustic tomography and image reconstruction,” Journal of Biomedical Optics 12(01), 014027 (Jan. 2007). [PDF]

  9. L. V. Wang, "Ultrasound-mediated biophotonic imaging: a review of acousto-optical tomography and photo-acoustic tomography," Journal of Disease Markers 19 (3), 123–138 (2004). [PDF]

  10. L. V. Wang, "Mechanisms of ultrasonic modulation of multiply scattered coherent light: an analytic model," Physical Review Letters 87, 043903-(1–4) (2001). [PDF]

  11. L. V. Wang, "Mechanisms of ultrasonic modulation of multiply scattered coherent light: a Monte Carlo model," Optics Letters 26, 1191–1193 (2001). [PDF]

  12. L. V. Wang, and S. L. Jacques, "Source of error in calculation of optical diffuse reflectance from turbid media using diffusion theory," Computer Methods and Programs in Biomedicine, 61:(3), 163-170 (2000). [PDF]

  13. L. V. Wang and G. Liang, "Absorption distribution of an optical beam focused into a turbid medium," Applied Optics 38, 4951-4958 (1999). [PDF]

  14. L. V. Wang, X. Zhao, H. Sun, and G. Ku, "Microwave-induced acoustic imaging of biological tissues," Review of Scientific Instruments, 70, 3744-3748 (1999). [PDF]

  15. L. V. Wang, "Ultrasonic modulation of scattered light in turbid media and a potential novel tomography in biomedicine," Photochemistry and Photobiology 67, 41-49 (1998).

  16. L. V. Wang and Q. Shen, "Sonoluminescence tomography of turbid media," Optics Letters 23, 561-563 (1998). [PDF]

  17. L. V. Wang, "Rapid modeling of diffuse reflectance of light in turbid slabs," Journal of Optical Society of America A 15, 936-944 (1998). [PDF]

  18. L. V. Wang, "Optical tomography for biomedical applications," IEEE Engineering in Medicine and Biology 17, 45-56 (1998).

  19. L. V. Wang and G. Ku, "Frequency-swept ultrasound-modulated optical tomography of scattering media," Optics Letters 23, 975-977 (1998). [PDF]

  20. L. V. Wang and X.-M. Zhao, "Ultrasound-modulated optical tomography of absorbing objects buried in dense tissue-simulating turbid media," Applied Optics 36, 7277-7282 (1997). [PDF]

  21. L. V. Wang, W. R. Chen, and R. E. Nordquist, "Optimal beam size for light delivery to absorption-enhanced tumors buried in biological tissues and effect of multiple beam delivery: a Monte Carlo study," Applied Optics 36, 8286-8291 (1997). [PDF]

  22. L. V. Wang, S. L. Jacques, and L.-Q. Zheng, "CONV - Convolution for responses to a finite diameter photon beam incident on multi-layered tissues," Computer Methods and Programs in Biomedicine 54, 141-150 (1997). [PDF>>Download software.<<

  23. L. V. Wang, D. Liu, N. He, S. L. Jacques, and S. L. Thomsen, "Biological laser action," Applied Optics 35, 1775-1779 (1996). [PDF]

  24. L. V. Wang, S. L. Jacques, and L.-Q. Zheng, "MCML - Monte Carlo modeling of light transport in multi-layered tissues," Computer Methods and Programs in Biomedicine 47, 131-146 (1995). [PDF]   >>Download software.<<

  25. L. V. Wang, S. L. Jacques, and X.-M. Zhao, "Continuous-wave ultrasonic modulation of scattered laser light to image objects in turbid media," Optics Letters 20, 629-631 (1995). [PDF]

  26. L. V. Wang and S. L. Jacques, "Use of a laser beam with an oblique angle of incidence to measure the reduced scattering coefficient of a turbid medium," Applied Optics 34, 2362-2366 (1995). [PDF]

  27. L. V. Wang and S. L. Jacques, "Optimized radial and angular positions in Monte Carlo modeling," Medical Physics 21, 1081-1083 (1994). [PDF]

  28. L. V. Wang and S. L. Jacques, "Error estimation of measuring total interaction coefficients of turbid media using collimated light transmission," Physics in Medicine and Biology 39, 2349-2354 (1994). [PDF]

  29. L. V. Wang and S. L. Jacques, "Hybrid model of Monte Carlo simulation diffusion theory for light reflectance by turbid media," Journal of Optical Society of America A 10, 1746-1752 (1993). [PDF]

  30. L. V. Wang, L. P. F. Chibante, F. K. Tittel, R. F. Curl, and R. E. Smalley, "Isomers of gallium arsenide cluster ions," Chemical Physics Letters 194, 217-222 (1992).

  31. L. V. Wang, L. P. F. Chibante, F. K. Tittel, R. F. Curl, and R. E. Smalley, "Ammonia chemisorption on gallium arsenide clusters," Chemical Physics Letters 172, 335-340 (1990).

Wang, L.

  1. [Y. He, L. Wang, J. Shi], J. Yao, L. Li, R. Zhang, C. H. Huang, J. Zou, and L. V. Wang, "In vivo label-free photoacoustic flow cytography and on-the-spot laser killing of single circulating melanoma cells," Sci. Rep. 6, 39616 (2016). [PDF]

  2. L. Wang, G. Li, J. Xia, and L.V. Wang, “Ultrasonic-heating–encoded photoacoustic tomography with virtually augmented detection view”, Optica 2(4), 307-312 (2015). [PDF]

  3. [P. Lai, L. Wang, J. Tay], and L. V. Wang, "Photoacoustically guided wavefront shaping (PAWS) for enhanced optical focusing in scattering media," Nature Photonics 9, advance online publication, doi:10.1038/nphoton.2014.322 (2015). [PDF]

  4. L. Wang, J. Yao, K. I. Maslov, W. Xing and L. V. Wang, "Ultrasound-heated photoacoustic flowmetry," Journal of Biomedical Optics 18(11), 117003-117003(Nov. 2013). [PDF]

  5. L. Wang, C. Zhang, and L. V. Wang, “Grueneisen relaxation photoacoustic microscopy,” Physical Review Letters 113, 174301 (Oct. 2014). [PDF]

  6. L. Wang, J. Xia, J. Yao, K. I. Maslov and L. V. Wang, "Ultrasonically Encoded Photoacoustic Flowgraphy in Biological Tissue," Physical Review Letters 111(20), 204301(Nov. 2013). [PDF]

  7. L. Wang, K. Maslov and L. V. Wang, "Single-cell label-free photoacoustic flowoxigraphy in vivo," Proceedings of the National Academy of Sciences 110(15), 5759-5764 (Mar. 2013). [PDF]

  8. L. Wang, K. Maslov, W. Xing, A. Garcia-Uribe, and L. V. Wang, “Video-rate functional photoacoustic microscopy at depths,” Journal of Biomedical Engineering 17(10), 106007 (Oct. 2012). [PDF]

  9. L. Wang, K. Maslov, J. Yao, B. Rao and L. V. Wang , “Fast voice-coil scanning optical-resolution photoacoustic microscopy,” Optics Letters 36 (2), 139–141 (Jan. 2011). [PDF]

Wang, Y.  

  1. Y. Wang, J. Xia, and L. V. Wang, “Deep-tissue photoacoustic tomography of Forster resonance energy transfer,” Journal of Biomedical Optics 18(10), 101316 (Oct. 2013). [PDF]

  2. Y. Wang and L. V. Wang, “Förster resonance energy transfer photoacoustic microscopy,” Journal of Biomedical Optics 17(8), 086007 (Aug. 2012). [PDF]

  3. Y. Wang, K. Maslov, and L. V. Wang, “Spectrally encoded photoacoustic microscopy using a digital mirror device,” Journal of Biomedical Optics 17(6), 066020 (Jun. 2012). [PDF]

  4. [Y. Wang, T. N. Erpelding], L. Jankovic, Z. Guo, J.-L. Robert, G. David, and L. V. Wang, “In vivo three-dimensional photoacoustic imaging based on a clinical matrix array ultrasound probe,” Journal of Biomedical Optics 17, 061208 (May 2012). [PDF]

  5. Y. Wang, S. Hu, K. Maslov, Y. Zhang, Y. Xia, and L. V. Wang, “In vivo integrated photoacoustic and confocal microscopy of hemoglobin oxygen saturation and oxygen partial pressure,” Optics Letters 36 (7), 1029–1031 (Apr. 2011). [PDF]

  6. Y. Wang, K. Maslov, Y. Zhang, S. Hu, L. Yang, Y. Xia, J. Liu, and L. V. Wang, “Fiber-laser-based photoacoustic microscopy and melanoma cell detection,” Journal of Biomedical Optics 16, 011014 (Jan.  2011). [PDF]

  7. Y. Wang, K. Maslov, C. Kim, S. Hu, and L. V. Wang, “Integrated photoacoustic and fluorescence confocal microscopy,” IEEE Transactions on Biomedical Engineering, 57 (10), 2576–2578 (Jul. 15, 2010). [PDF]

Wang, Y. W.

  1. Y. Wang, X. Xie, X. Wang, G. Ku, K. L. Gill, D. P. O’Neal, G. Stoica, and L. V. Wang, "Photoacoustic tomography of a nanoshell contrast agent in the in vivo rat brain," Nano Letters 4 (9), 1689–1692 (Sep. 2004). [PDF]

Wang, X.

  1. X. Wang, X. Xie, G. Ku, G. Stoica, and L. V. Wang, "Non-invasive imaging of hemoglobin concentration and oxygenation in the rat brain using high-resolution photoacoustic tomography," Journal of Biomedical Optics 11 (2), 024015 (Mar./Apr. 2006). [PDF]

  2. X. Wang, G. Ku, M. A. Wegiel, D. J. Bornhop, G. Stoica, and L. V. Wang, "Non-invasive photoacoustic angiography of animal brains in vivo with NIR light and an optical contrast agent," Optics Letters 29 (7), 730–732 (Apr. 1, 2004). [PDF]

  3. X. Wang, Y. Pang, G. Ku, X. Xie, G. Stoica, and L. V. Wang, "Non-invasive laser-induced photoacoustic tomography for structural and functional imaging of the brain in vivo," Nature Biotechnology 21 (7), 803-806 (July 2003). [PDF] Supp. 1. [PDF] Supp. 2. [PDF]

  4. X. Wang, L. V. Wang, C.-W. Sun, and C. C. Yang, "Polarized light propagation through the scattering media: time-resolved Monte Carlo and experiments," Journal of Biomedical Optics 8 (4), 608-617 (October 2003). [PDF]

  5. X. Wang, Y. Pang, G. Ku, G. Stoica, and L. V. Wang, "Three-dimensional laser-induced photoacoustic tomography of mouse brain with the skin and skull intact," Optics Letters 28 (19), 1739-1741 (October 2003). [PDF]  

  6. X. Wang, Y. Xu, M. Xu, S. Yokoo, E. S. Fry, and L. V. Wang, "Photoacoustic tomography of biological tissues with high cross-section resolution: Reconstruction and experiment," Medical Physics 29 (12), 2799–2805 (December 2002). [PDF]  

  7. X. Wang and L. V. Wang, "Propagation of polarized light in birefringent turbid media: a Monte Carlo study," Journal of Biomedical Optics 7 (3), 279–290 (July 2002). [PDF]

  8. X. Wang, G. Yao, and L. V. Wang, "Monte Carlo model and single-scattering approximation of polarized light propagation in turbid media containing glucose," Applied Optics 41 (4), 792–801 (2002). [PDF]  

  9. X. Wang and L. V. Wang, "Propagation of polarized light in birefringent turbid media: time-resolved simulations," Optics Express 9 (5), 254–259 (2001). See Optics Express online for video clips. [PDF]

Winkler, A.

  1. A. Winkler, K. I. Maslov, and L. V. Wang, "Noise-equivalent sensitivity of photoacoustic," J. Biomed. Opt. 18(9), 097003 (2013).[PDF]

Wong, T. T. W.

  1. T. T. W. Wong, Y. Zhou, A. Garcia-Uribe, L. Li, K. Maslov, L. Lin, and L. V. Wang, "Use of a single xenon flash lamp for photoacoustic computed tomography of multiple-centimeter-thick biologcal tissue ex vivo and a whole mouse in vivo," J. Biomed. Opt. 22(4), 041003 (2017). [Request PDF]

Xia, J.

  1. J. Xia, J. Yao, and L. V. Wang, "Photoacoustic Tomography: Principles and Advances," Progress In Electromagnetics Research 147, 1-22 (2014). [PDF]

  2. [M. Nasiriavanaki, J. Xia], H. Wan, A. Q. Bauer, J. P. Culver, and L. V. Wang, “High-resolution photoacoustic tomography of resting-state functional connectivity in the mouse brain,” Proceedings of the National Academy of Sciences 111(1), 21-26 (Jan.2014). [PDF]

  3. J. Xia, and L. V. Wang, “Small-animal whole-body photoacoustic tomography: a review,” IEEE Transactions on Biomedical Engineering, 61(5), 1380-1389 (2014). [PDF]

  4. [H. Yuan, C. M. Wilson, J. Xia, S. L. Doyle], S. Li, A. M. Fales, Y. Liu, E. Ozaki, K. Mulfaul and G. Hanna, G. M. Palmer, L. V. Wang, G. A. Grant, and T. Vo-Dinh, "Plasmonics-enhanced and optically modulated delivery of gold nanostars into brain tumor," Nanoscale 6(8), 4078-4082 (2014). [PDF]

  5. J. Xia, W. Chen, K. Maslov, M. A. Anastasio, and L. V. Wang, “Retrospective respiration-gated whole-body photoacoustic computed tomography of mice,” Journal of Biomedical Optics 19(1), 016003 (Jan. 2014). [PDF]

  6. J. Xia, G. Li, L. Wang, M. Nasiriavanaki, K. Maslov, J.A. Engelbach, J.R. Garbow, and L.V. Wang, “Wide-field two-dimensional multifocal optical-resolution photoacoustic computed microscopy”, Optics Letters 38(24), 5236-5239 (Dec. 2013). [PDF]

  7. [L. Wang, J. Xia], J. Yao, K. I. Maslov and L. V. Wang, "Ultrasonically Encoded Photoacoustic Flowgraphy in Biological Tissue," Physical Review Letters 111(20), 204301(Nov. 2013). [PDF]

  8. J. Xia, C. Huang, K. Maslov, M. A. Anastasio, and L. V. Wang, "Enhancement of photoacoustic tomography by ultrasonic computed tomography based on optical excitation of elements of a full-ring transducer array," Optics Letters 38(16), 3140-3143 (Aug. 2013). [PDF]

  9. J. Xia, A. Danielli, Y. Liu, L. Wang, K. Maslov, and L. V. Wang, "Calibration-free quantification of absolute oxygen saturation based on the dynamics of photoacoustic signals," Optics Letters 38(15), 2800-2803 (Aug. 2013). [PDF]

  10. [J. Yao, J. Xia], K. I. Maslov, M. Naziriavanaki, V. Tsytsarev, A. V. Demchenko, and L. V. Wang, “Noninvasive photoacoustic computed tomography of mouse brain metabolism in vivo,” NeuroImage 64, 257–266 (Jan. 2013). [PDF]

  11. [M. R. Chatni, J. Xia], R. Sohn, K. Maslov, Z. Guo, Y. Zhang, K. Wang, Y. Xia, M. Anastasio, J. Arbeit, and L. V. Wang, “Tumor glucose metabolism imaged in vivo in small animals with whole-body photoacoustic computed tomography,” Journal of Biomedical Optics 17(7), 076012 (Jul. 2012). [PDF]

  12. J. Xia, M. R. Chatni, K. Maslov, Z. Guo, K. Wang, M. Anastasio, and L. V. Wang, "Whole-body ring-shaped confocal photoacoustic computed tomography of small animals in vivo", Journal of  Biomedical Optics 17, 050506 (May 2012). [PDF]

  13. J. Xia, Z. Guo, K. Maslov, A. Aguirre,  Q. Zhu, C. Percival, and L. V. Wang, “Three-dimensional photoacoustic tomography based on the focal-line concept,” Journal Biomedical Optics 16(7), 090505 (Sep. 2011). [PDF]

Xie, Y.

  1. Y. Xie, B. Guo, J. Li, G. Ku, and L. V. Wang, "Adaptive and robust methods of reconstruction (ARMOR) for thermoacoustic tomography," IEEE Transactions on Biomedical Engineering 55 (12), 2741–2752 (Dec. 2008). [PDF]

Xie, Z. X.

  1. Z. Xie, L. V. Wang, H. F. Zhang, “Optical fluence distribution study in tissue in dark-field confocal photoacoustic microscopy using a modified Monte Carlo convolution method ,” Applied Optics 48 (17), 3204–3211 (Jun. 2009). [PDF]

Xing, W.

  1. W. Xing, L. Wang, K. I. Maslov, and L. V. Wang, “Integrated optical- and acoustic- resolution photoacoustic microscopy based on an optical fiber bundle,” Optics Letter 38(1), 52–54 (Jan. 2013). [PDF]

Xu, M.

  1. M. Xu and L. V. Wang, "Photoacoustic imaging in biomedicine," Review of Scientific Instruments 77, 041101-(1–22) (Apr. 2006). [PDF]

  2. M. Xu and L. V. Wang, "Universal back-projection algorithm for photoacoustic-computed tomography," Physical Review E 71 (1): 016706 (Part 2, Jan. 2005). [PDF]

  3. M. Xu and L. V. Wang, "Analytic explanation of spatial resolution related to bandwidth and detector aperture size in thermoacoustic or photoacoustic reconstruction," Physical Review E 67 (5), 056605, 1-15 (May 2003). [PDF]

  4. M. Xu, Y. Xu, and L. V. Wang, "Time-domain reconstruction algorithms and numerical simulations for thermoacoustic tomography in various geometries," IEEE Transactions on Biomedical Engineering, 50 (9), 1086-1099 (September 2003). [PDF]

  5. M. Xu and L. V. Wang, "Pulsed-microwave-induced thermoacoustic tomography: Filtered backprojection in a circular measurement configuration," Medical Physics 29 (8), 1661–1669 (August 2002). [PDF]

  6. M. Xu and L. V. Wang, "Time-domain reconstruction for thermoacoustic tomography in a spherical geometry," IEEE Transactions on Medical Imaging 21 (7), 814–822 (July 2002). [PDF]

  7. M. Xu, G. Ku, and L. V. Wang, "Microwave-induced thermoacoustic tomography using multi-sector scanning," Medical Physics 28 (9), 1958–1963 (2001). [PDF]  

Xu, X.

  1. [P. Lai, X. Xu], and L. V. Wang, "Dependence of optical scattering from Intralipid in gelatin-gel based tissue-mimicking phantoms on mixing temperature and time," Journal of Biomedical Optics 19(3), 035002 (2014). [PDF]

  2. [P. Lai, Y. Suzuki, X. Xu] and L. V. Wang, "Focused fluorescence excitation with time-reversed ultrasonically encoded light and imaging in thick scattering media," Laser Physics Letters 10(7), 075604 (May 2013). [PDF]

  3. [X. Xu, H. Liu], and L. V. Wang, “Time-reversed ultrasonically encoded optical focusing into scattering media,Nature Photonics 5, 154-157 (Mar. 2011). Published online on January 16, 2011. [PDF]

  4. [X. Xu, S. Kothapalli], H. Liu, and L. V. Wang, “Spectral hole burning for ultrasound-modulated optical tomography of thick tissue,” Journal of Biomedical Optics 15, 066018 (Dec. 13, 2010). [PDF]

  5. X. Xu, H. L. Zhang, P. Hemmer, D. K. Qing, C. H. Kim, and L. V. Wang, "Photorefractive detection of tissue optical and mechanical properties by ultrasound modulated optical tomography," Optics Letters 32(6), 656–658 (Mar. 2007).[PDF]

Xu, Y.

  1. Y. Xu and L. V. Wang, "Rhesus monkey brain imaging through intact skull with thermoacoustic tomography," IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control 53 (3), 542–548 (Mar. 2006). [PDF]

  2. Y. Xu, L. V. Wang, G. Ambartsoumian and P. Kuchment, "Reconstructions in limited-view thermoacoustic tomography," Medical Physics 31 (4), 724–733 (Apr. 2004). [PDF]
     
  3. Y. Xu and L. V. Wang, "Time reversal and its application to tomography with diffracting sources," Physical Review Letters 92 (3), 033902 (Jan. 23, 2004). [PDF]
     
  4. Y. Xu and L. V. Wang, "Effects of acoustic heterogeneity on thermoacoustic tomography in the breast," IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control 50 (9), 1134-1146 (September 2003). [PDF]

  5. Y. Xu, M. Xu, and L. V. Wang, "Exact frequency-domain reconstruction for thermoacoustic tomography—II: Cylindrical geometry," IEEE Transactions on Medical Imaging 21 (7), 829–833 (July 2002). [PDF]

  6. Y. Xu, D. Feng, and L. V. Wang, "Exact frequency-domain reconstruction for thermoacoustic tomography—I: Planar geometry," IEEE Transactions on Medical Imaging 21 (7), 823–828 (July 2002). [PDF]

  7. Y. Xu and L. V. Wang, "Signal processing in scanning thermoacoustic tomography in biological tissues," Medical Physics 28, 1519–1524 (2001). [PDF]

Xu, Z.

  1. Z. Xu, Q. Zhu, and L. V. Wang, "In vivo photoacoustic tomography of mouse cerebral edema induced by cold injury", Journal of Biomedical Optics 16(6), 066020 (Jun. 2011). [PDF]

  2. Z. Xu, C. H. Li, and L. V. Wang, "Photoacoustic tomography of water in phantoms and tissue,"   Journal of Biomedical Optics 15(3), 036019 (Jun. 2010). [PDF


Yang, J. M.

  1. J.-M. Yang, C. Li, R. Chen, B. Rao, J. Yao, C.-H. Yeh, A. Danielli, K. Maslov, Q. Zhou, K.K. Shung, and L.V. Wang, “Optical-resolution photoacoustic endomicroscopy in vivo,” Biomedical Optics Express 6(3), 918-932 (Mar. 2015). [PDF]

  2. J. M. Yang, C. Li, R. Chen, Q. Zhou, K. K. Shung, and L. V. Wang, “Catheter-based photoacoustic endoscope,” Journal of Biomedical Optics 19 (6), 066001 (Jun. 2014). [PDF]

  3. [C. Li, J.-M. Yang], R. Chen, C.-H. Yeh, L. Zhu, K. Maslov, Q. Zhou, K.K. Shung, and L.V. Wang, “Urogenital photoacoustic endoscope,” Optics Letters 39(6), 1473-1476 (Mar. 2014). [PDF]

  4. J.-M. Yang, R. Chen, C. Favazza, J. Yao, C. Li, Z. Hu, Q. Zhou, K. K. Shung, and L. V. Wang, “A 2.5-mm diameter probe for photoacoustic and ultrasonic endoscopy,” Optics Express 20(21), 23944-23953 (Oct. 2012). [PDF]

  5. J.-M. Yang, C. Favazza, R. Chen, J. Yao, X. Cai, K. Maslov, Q. Zhou, K. K. Shung, and L. V. Wang, “Simultaneous functional photoacoustic and ultrasonic endoscopy of internal organs in vivo,” Nature Medicine 18(8), 1297-1302 (Aug. 2012). [PDF]

  6. J. M. Yang, K. Maslov, H. C. Yang, Q. F. Zhou, K. K. Shung, and L. V. Wang, “Photoacoustic endoscopy,” Optics Letters, accepted (Apr. 2009). [PDF]

Yang, X. M.

  1. X. M. Yang, A. Maurudis, J. Gamelin, A. Aguirre, Q. Zhu, and L. V. Wang, “Photoacoustic tomography of small animal brain with a curved array transducer,” Journal of Biomedical Optics, 14, 054007 (Sep. 16, 2009). [PDF]

  2. X. Yang, E. W. Stein, S. Ashkenazi, and L. V. Wang, "Nanoparticles for photoacoustic imaging," Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology 1 (4), 360–368 (May 2009). [PDF]

  3. X. M. Yang, A. Maurudis, J. Gamelin, A. Aguirre, Q. Zhu, and L. V. Wang, “Photoacoustic tomography of small animal brain with a curved array transducer”, Journal of Biomedical Optics 14(5), 054007(1-5), (Sept/Oct. 2009). [PDF]

  4. X. M. Yang, and L. V. Wang, "Monkey brain cortex imaging by photoacoustic tomography," Journal of Biomedical Optics 13, 044009-(1–5) (Aug. 2008). [PDF]

  5. X. M. Yang, S. E. Skrabalak, Z. Li, Y. Xia, and L. V. Wang, "Photoacoustic tomography of a rat cerebral cortex in vivo with Au nanocages as an optical contrast agent," Nano Letters 7 (12), 3798–3802 (Nov. 2007). [PDF]

  6. X. M. Yang, and L. V. Wang, "Photoacoustic tomography of a rat cerebral cortex with a ring-based ultrasonic virtual point detector," Journal of Biomedical Optics 12, 060507-(1–3) (Nov. 2007). [PDF]

  7. X. M. Yang, M. L. Li, and L. V. Wang, "Ring-based ultrasonic virtual point detector with applications to photoacoustic tomography," Applied Physics Letters 90, 251103 (Jun. 2007). [PDF]
     

Yao, D. K.

  1. D.-K. Yao, C. Zhang, K. Maslov, and L. V. Wang, “Photoacoustic measurement of the Grüneisen parameter of tissue,” Journal of Biomedical Optics 19 (1), 017007 (Jan. 2014). [PDF]

  2. D.-K. Yao, R. Chen, K. Maslov, Q. Zhou, and L. V. Wang, “Optimal ultraviolet wavelength for in vivo photoacoustic imaging of cell nuclei,” Journal of  Biomedical Optics 17, 056004 (May 2012). [PDF]

  3. D. K. Yao, K. Maslov, K. K. Shung, Q. F. Zhou, and L. V. Wang, “In vivo label-free photoacoustic microscopy of cell nuclei by excitation of DNA and RNA,” Optics Letters 35 (24), 4139-4141 (Dec. 9, 2010). [PDF]

Yao, G.

  1. G. Yao and L. V. Wang, "Signal dependence and noise source in ultrasound-modulated optical tomography," Applied Optics 43 (6), 1320–1326 (Feb. 20, 2004). [PDF]

  2. G. Yao and L. V. Wang, "Propagation of polarized light in turbid media: simulated animation sequences," Opt. Express 7, 198-203(2000). [PDF]  See Optics Express online for video clips.

  3. G. Yao, S.-L. Jiao and L. V. Wang, "Frequency-swept ultrasound-modulated optical tomography in biological tissue by use of parallel detection," Optics Letters, 25, 734-736 (2000). [PDF]

  4. G. Yao, and L. V. Wang, "Theoretical and experimental studies of ultrasound-modualted optical tomography in biological tissue," Appl. Opt., 39, 659-664 (2000). [PDF]

  5. G. Yao and L. V. Wang, "Two-dimensional depth-resolved Mueller matrix characterization of biological tissue by optical coherence tomography," Optics Letters 24, 537-539 (1999). [PDF]

  6. G. Yao and L. V. Wang, "Monte Carlo simulation of optical coherence tomography in homogeneous turbid media," Physics in Medicine and Biology, 44, 2307-2320 (1999). [PDF]

  7. G. Yao and L. V. Wang, "Full-field mapping of ultrasonic fields by light-source-synchronized projection," Journal of Acoustical Society of America, 106, L36-L40 (1999). [PDF]

Yao, J. J.

  1. J. Yao, J. Xia, and L. V. Wang, “Multiscale Functional and Molecular Photoacoustic Tomography,” Ultrasonic Imaging 38(1), 44-62 (2016). [Request PDF]

  2. J. Yao, A. A. Kaberniuk, L. Li, D. M. Shcherbakova, R. Zhang, L. Wang, G. Li, V. V. Verkhusha, and L. V. Wang, “Multiscale photoacoustic tomography using reversibly switchable bacterial phytochrome as a near-infrared photochromic probe,” Nature Methods, (2015) doi:10.1038/nmeth.3656. [Request PDF]

  3. J. Yao, L. Song, and L.V. Wang, “Photoacoustic Microscopy: Superdepth, superresolution, and super contrast,” Pulse, IEEE 6(3), 34-37 (May. 2015). [PDF]

  4. J. Yao, L. Wang, J-M Yang, K. Maslov, T. Wong, L. Li, C-H Huang, J. Zou, and L. V. Wang, "High-speed Label-free Functional Photoacoustic Microscopy of Mouse Brain in Action", Nature Methods. Published in advanced online publication March 30, 2015, doi: 10.1038/nmeth.3336. [PDF]

  5. [C. Martel, J. Yao], C. Huang, J. Zou, G. J. Randolph, and L. V. Wang, "Photoacoustic lymphatic imaging with high spatial-temporal resolution", J. Biomed. Opt. 19(11), 116009 (2014). [PDF]

  6. [P. Hai, J. Yao], K. I. Maslov, Y. Zhou, and L. V. Wang, “Near-infrared optical-resolution photoacoustic microscopy,” Opt. Lett. 39(17), 5192–5195 (2014). [PDF]

  7. J. Yao, D. M. Shcherbakova, C. Li, A. Krumholz, R. A. Lorca, E. Reinl, S. K. England, V. V. Verkhusha, and L. V. Wang, “Reversibly switchable fluorescence microscopy with enhanced resolution and image contrast,” J. Biomed. Opt. 19(8), 086018 (2014). [PDF]

  8. [Y. S. Zhang, J. Yao], C. Zhang, L. Li, L. V. Wang, and Y. Xia, "Optical-Resolution Photoacoustic Microscopy for Volumetric and Spectral Analysis of Histological and Immunochemical Samples," Angew. Chem. Int. Ed. 53, 8099-8103 (2014). [PDF]

  9. [J. Xia, J. Yao], and L. V. Wang, "Photoacoustic Tomography: Principles and Advances," Progress In Electromagnetics Research 147, 1-22 (2014). [PDF]

  10. J. Yao and L. V. Wang, "Photoacoustic brain imaging: from microscopic to macroscopic scales," Neurophotonics 1(1), 011003 (Jul–Sep 2014). [PDF]

  11. J. Yao and L. V. Wang, "Sensitivity of photoacoustic microscopy," Photoacoustics 2, 87-101 (April, 2014). [PDF]

  12. J. Yao and L. V. Wang, "Breakthroughs in Photonics 2013: Photoacoustic Tomography in Biomedicine," IEEE Photonics Journal 6(2), 0701006 (April, 2014). [PDF]

  13. J. Yao, R. C. Gilson, K. I. Maslov, L. Wang, and L. V. Wang, "Calibration-free structured-illumination photoacoustic flowgraphy of transverse flow in scattering media," J. Biomed. Opt. 19 (4), 046007 (April 09, 2014). [PDF]

  14. [Y. Zhou, J. Yao], K. I. Maslov, and L. V. Wang, "Calibration-free absolute quantification of particle concentration by statistical analyses of photoacoustic signals in vivo," J. Biomed. Opt. 19(3), 037001 (2014). [PDF]

  15. J. Yao, L. Wang, C. Li, C. Zhang, and L. V. Wang, “Photoimprint Photoacoustic Microscopy for Three-Dimensional Label-Free Subdiffraction Imaging,” Physical Review Letters 112(1), 014302(Jan. 2014). [PDF]

  16. J. Yao, H. Ke, S. Tai, Y. Zhou, and L. V. Wang, “Absolute photoacoustic thermometry in deep tissue”, Optics Letters 38(24), 5228-5231 (Dec. 2013). [PDF]

  17. [R. Zhang, J. Yao], K. I. Maslov and L. V. Wang, "Structured-illumination photoacoutic Doppler flowmetry of axial flow in homogeneous scattering media," Applied Physics Letters 103, 094101 (Aug. 2013). [PDF]

  18. J. Yao and L. V. Wang, "Photoacoustic microscopy," Laser & Photonics Reviews 7(5), 758-778 (Jul. 2013). [PDF]

  19. [K. J. Rowland, J. Yao], L. Wang, C. R. Erwin, K. I. Maslov, L. V. Wang, and B. W. Warner, "Up-regulation of hypoxia-inducible factor 1 alpha and hemodynamic responses following massive small bowel resection," Journal of Pediatric Surgery 48(6), 1330-1339 (Jun. 2013). [PDF]

  20. [Y. Zhou, J. Yao], and L. V. Wang, "Optical clearing-aided photoacoustic microscopy with enhanced resolution and imaging depth," Optics Letters 38(14), 2592-2595 (Jul. 2013). [PDF]

  21. [J. Yao, J. Xia], K. I. Maslov, M. Naziriavanaki, V. Tsytsarev, A. V. Demchenko, and L. V. Wang, “Noninvasive photoacoustic computed tomography of mouse brain metabolism in vivo,” NeuroImage 64, 257–266 (Jan. 2013). [PDF]

  22. J. Yao, C.-H. Huang, L. Wang, J.-M. Yang, L. Gao, K. I. Maslov, J. Zou and L. V. Wang, “Wide-field fast-scanning photoacoustic microscopy based on a water-immersible MEMS scanning mirror,” Journal of Biomedical Optics 17(8), 080505 (Aug. 2012). [PDF]

  23. J. Yao, K. I. Maslov, and L. V. Wang,  “In vivo photoacoustic tomography of total blood flow and potential imaging of cancer angiogenesis and hypermetabolism,” Technology in Cancer Research and Treatment 11(4), 301-307 (Aug. 2012). [PDF]

  24. [K. J. Rowland, J. Yao], L. Wang, C. R. Erwin, K. I. Maslov, L. V. Wang, and B. W. Warner, “Immediate alterations in intestinal oxygen saturation and blood flow after massive small bowel resection as measured by photoacoustic microscopy,” Journal of Pediatric Surgery 47(6), 1143-1149 (Jun. 2012). [PDF]

  25. J. Yao, K. I. Maslov, E. R. Puckett, K. J. Rowland, B. W. Warner, and L. V. Wang, “Double-illumination photoacoustic microscopy,” Optics Letter 37(4), 659–662 (Feb. 2012). [PDF]

  26. [V. Tsytsarev, K. I. Maslov, J. Yao], A. R. Parameswar, A. V. Demchenko*, and L. V. Wang*, "In vivo imaging of epileptic activity using 2-NBDG, a fluorescent deoxyglucose analog," Journal of Neuroscience Methods 203, 136-140 (Jan. 2012). [PDF]

  27. J. Yao, and L. V. Wang, "Photoacoustic tomography: fundamentals, advances and prospects," Contrast Media & Molecular Imaging 6, 332–345 (Oct. 2011). [PDF]

  28. J. Yao, K. I. Maslov, Y. Zhang, Y. Xia, and L. V. Wang, “Label-free oxygen-metabolic photoacoustic microscopy in vivo,” Journal of Biomedical Optics 16(7), 076003 (Jul. 2011). [PDF]

  29. J. Yao, K. I. Maslov, Y. Shi, L. A. Taber, and L. V. Wang, "In vivo photoacoustic imaging of transverse blood flow by using Doppler broadening of bandwidth," Optics Letters 35 (9), 1419-142 (Apr. 1, 2010).  [PDF]

  30. J. Yao and L. V. Wang, "Transverse flow imaging based on photoacoustic Doppler bandwidth broadening," Journal of Biomedical Optics 15(2), 021304 (Mar./Apr. 2010). [PDF]

  31. J. Yao, K. Maslov, S. Hu, and L. V. Wang, “Evans blue dye-enhanced capillary-resolution photoacoustic microscopy in vivo,” Journal of Biomedical Optics, 14, 054049 (Oct. 26, 2009). [PDF]

Yeh, C.-H.

  1. C. Yeh, B. Soetikno, S. Hu, K. I. Maslov, and L. V. Wang, "Three-dimensional arbitrary trajectory scanning photoacoustic microscopy," J. Biophoton., 201400055(2014). [PDF]

  2. C. Yeh, B. Soetikno, S. Hu, K. I. Maslov, and L. V. Wang, "Microvascular quantification based on contour-scanning photoacoustic microscopy," J. Biomed. Opt. 19(9), 096011 (2014). [PDF]

  3. [C. Yeh, S. Hu], K. Maslov and L. V. Wang, "Photoacoustic microscopy of blood pulse wave," Journal of Biomedical Optics 17(7), 070504 (Jul. 2012). [PDF]

Zemp, R. J.

  1. R. J. Zemp, L. Song, R. Bitton, K. K. Shung, and L. V. Wang, "Realtime photoacoustic microscopy of murine cardiovascular dynamics," Optics Express 16, 18551–18556 (Oct. 2008). [PDF]

  2. R. J. Zemp, L. Song, R. Bitton, K. K. Shung, and L. V. Wang, "Realtime photoacoustic microscopy in vivo with a 30-MHz ultrasound array transducer," Optics Express 16, 7915–7928 (May 2008).[PDF]

  3. R. J. Zemp, C. Kim, and L. V. Wang, "Ultrasound-modulated optical tomography with intense acoustic bursts," Applied Optics 46(10), 1615–1623 (Apr. 2007). [PDF]

  4. R. Zemp, M. Li, R. Bitton, K. K. Shung, G. Stoica, and L. V. Wang, "Photoacoustic imaging of the microvasculature with a high-frequency ultrasound array transducer," Journal of Biomedical Optics 12(01), 010501 (Jan. 2007). [PDF]

  5. R. Zemp, S. Sakadzic, and L. V. Wang, "Stochastic explanation of speckle contrast detection in ultrasound-modulated optical tomography," Physical Review E 73, 061920 (Jun. 2006). [PDF]

Zhan, H.

  1. H. Zhan, L. V. Wang, and E. Park, "On the horizontal-well pumping tests in anisotropic confined aquifers," Journal of Hydrology 252, 37–50 (2001).

Zhang, C.

  1. [C. Li, C. Zhang, L. Gao], A. G. Uribe, and L. V. Wang, “Photoacoustic recovery after photothermal bleaching in living cells,” Journal of Biomedical Optics 18(10), 106004 (Oct. 2013). [PDF]

  2. [L. Gao, C. Zhang, C. Li], and L. V. Wang, “Intracellular temperature mapping with fluorescence-assisted photoacoustic-thermometry,” Applied Physics Letters 102(19), 193705 (May 2013). [PDF]

  3. [C. Zhang, Y. Zhou], C. Li, and L. V. Wang, “Slow-sound photoacoustic microscopy,” Applied Physics Letters 102(16), 163702 (Apr. 2013). [PDF]

  4. C. Zhang, Y. Zhang, D.-K. Yao, Y. Xia, and L. V. Wang, “Label-free photoacoustic microscopy of cytochromes,” Journal of Biomedical Optics 18(2), 020504 (Jan. 2013). [PDF]

  5. [Y. Zhou, C. Zhang], D.-K. Yao, and L. V. Wang, “Photoacoustic microscopy of bilirubin in tissue phantoms,” Journal of Biomedical Optics 17(12), 126019 (Dec. 2012). [PDF]

  6. C. Zhang, K. Maslov, J. Yao, and L. V. Wang, “In vivo photoacoustic microscopy with 7.6-µm axial resolution using a commercial 125-MHz ultrasonic transducer,” Journal of Biomedical Optics 17(11), 116016 (Nov. 2012). [PDF]

  7. C. Zhang, Y.-J. Cheng, J. Chen, S. Wickline, and L. V. Wang, “Label-free photoacoustic microscopy of myocardial sheet architecture,” Journal of Biomedical Optics 17(6), 060506 (Jun. 2012). [PDF]

  8. C. Zhang, K. Maslov, S. Hu, R. Chen, Q. Zhou, K. K. Shung, and L. V. Wang, “Reflection-mode submicron-resolution in vivo photoacoustic microscopy,” Journal of Biomedical Optics 17(2), 020501 (Feb. 2012). [PDF]

  9. C. Zhang, K. Maslov and L. V. Wang, “Subwavelength-resolution label-free photoacoustic microscopy of optical absorption in vivo”, Optics Letters 35, 3195–3197 (Oct. 2010). [PDF]

  10. C. Zhang, C. Li, and L. V. Wang, “Fast and robust deconvolution-based image reconstruction for photoacoustic tomography in circular geometry: experimental validation,” IEEE Photonics Journal 2 (1), 57-66 (Feb. 2010). [PDF]

Zhang, H. F.

  1. [K. Maslov, H. F. Zhang], and L. V. Wang, “Photoacoustic generation of focused quasi-unipolar pressure pulses,” Journal of Innovative Optical Health Sciences 3 (4), 247–253 (Nov. 9, 2010). [PDF]

  2. H. F. Zhang, K. Maslov, and L. V. Wang, “An automatic algorithm for skin profile detection in photoacoustic microscopy,” Journal of Biomedical Optics 14 (2), 02405001–06 (Apr. 2009). [PDF]

  3. [K. Maslov, H. F. Zhang, S. Hu], and L. V. Wang, "Optical-resolution photoacoustic microscopy for in vivo imaging of single capillaries," Optics Letters 33, 929–931 (Apr. 2008). [PDF]

  4. H. F. Zhang, K. Maslov, and L. V. Wang, "In vivo imaging of subcutaneous structures using functional photoacoustic microscopy," Nature Protocols 2, 797–804 (Apr. 2007). [PDF]

  5. H. F. Zhang, K. Maslov, M. Sivaramakrishnan, G. Stoica, and L. V. Wang, "Imaging of hemoglobin oxygen saturation variations in single vessels in vivo using photoacoustic microscopy," Applied Physics Letters 90(5), 053901 (Jan. 2007). [PDF]

  6. H. F. Zhang, K. Maslov, M.-L. Li, G. Stoica, and L. V. Wang, "In vivo volumetric imaging of subcutaneous microvasculature by photoacoustic microscopy," Optics Express 14, 9317–9323 (Oct. 2006). [PDF]

  7. H. F. Zhang, K. Maslov, G. Stoica, and L. V. Wang, "Imaging acute thermal burns by photoacoustic microscopy," Journal of Biomedical Optics 11, 054033 (Sep./Oct. 2006). [PDF]

  8. H. F. Zhang, K. Maslov, G. Stoica, and L. V. Wang, "Functional photoacoustic microscopy for high-resolution and noninvasive in vivo imaging," Nature Biotechnology 24, 848–851 (Jul. 2006). [PDF]

Zhang, J.

  1. J. Zhang, M. A. Anastasio, P. J. La Riviere, and L. V. Wang, “Effects of different imaging models on least-squares image reconstruction accuracy in photoacoustic tomography,” IEEE Transactions on Medical Imaging 28 (11), 1781–1790 (Oct. 28, 2009). [PDF]

  2. J. Zhang, M. A. Anastasio, X. Pan, and L. V. Wang, "Weighted EM reconstruction algorithms for thermoacoustic tomography," IEEE Transactions on Medical Imaging 24 (6), 817-820 (Jun. 2005).[PDF]

Zhang, P.

  1. [L. Lin, P. Zhang], S. Xu, J. Shi, L. Li, J. Yao, L. Wang, J. Zou, and L. V. Wang, "Handheld optical-resolution photoacoustic microscopy," J. of Biomed. Opt. 22(4), 041002(2016). [Request PDF]

Zhang, R.

  1. R. Zhang, D. Pan, X. Cai, X. Yang, A. Senpan, J. S. Allen, G. M. Lanza, and L. V. Wang. "avß3-targeted copper nanoparticles incorporating an Sn 2 lipase-labile fumagillin prodrug for photoacoustic neovascular imaging and treatment." Theranostic 5(2), 124(2015). [PDF]

  2. R. Zhang, L. Wang, J. Yao, C. H. Yeh, and L. V. Wang, “In vivo optically encoded photoacoustic flowgraphy,” Optics Letters 39 (13), 3814–3817 (Jul. 2014). [PDF]

  3. [R. Zhang, J. Yao], K. I. Maslov and L. V. Wang, "Structured-illumination photoacoutic Doppler flowmetry of axial flow in homogeneous scattering media," Applied Physics Letters 103, 094101 (Aug. 2013). [PDF]

Zhou, M.

  1. [M. Zhou, L. Li], J. Yao, R. R. Bouchard, L. V. Wang, and C. Li, "Nanoparticles for Photoacoustic Imaging of Vasculature," Design and Applications of Nanoparticles in Biomedical Imaging, 337-356 (2017). [Request PDF]

Zhou, Y.

  1. P. Hai, Y. Zhou, R. Zhang, J. Ma, Y. Li, J. Shao, and L. V. Wang, "Label-free high-throughput detection and quantification of circulating melanoma tumor cell clusters by linear-assay-based photoacoustic tomography," J. Biomed. Opt. 22(4), 041004 (2017). [Reqest PDF]

  2. P. Hai, Y. Zhou, L. Gong, and L. V. Wang, "Quantitative photoacoustic elastography in humans," J. Biomed. Opt. 21(6), 066011 (2016). [Reqest PDF]

  3. Y. Zhou, J. Yao, and L. V. Wang, “Tutorial on photoacoustic tomography,” J. Biomed. Opt. 21(6), 061007 (2016). [Request PDF]

  4. [P. Hai, Y. Zhou], J. Liang, C. Li, and L. V. Wang, "Photoacoustic tomography of vascular compliance in humans," J. Biomed. Opt. 20(12), 126008 (2015). [PDF]

  5. Y. Zhou, J. Liang, and L. V. Wang, “Cuffing-based photoacoustic flowmetry in humans in the optical diffusive regime,” J. Biophotonics, 1-5 (2015). DOI 10.1002. [Request PDF]

  6. Y. Zhou, J. Poudel, G. Li, and L. V. Wang, “In vivo photoacoustic flowmetry at depths of the diffusive regime based on saline injection,” Journal of Biomedical Optics 20(8), 087001 (2015). [PDF]

  7. Y. Zhou, G. Li, L. Zhu, C. Li, L. A. Cornelius, and L. V. Wang, “Handheld photoacoustic probe to detect both melanoma depth and volume at high speed in vivo,” J. Biophotonics, 1-7 (2015). DOI 10.1002/jbio.201400143. [PDF]

  8. [M. Tang, Y. Zhou], R. Zhang, and L. V. Wang, “Noninvasive photoacoustic microscopy of methemoglobin in vivo,” J. Biomed. Opt. 20(3), 036007 (2015). [PDF]

  9. Y. Zhou, X. Yi, W. Xing, S. Hu, K. Maslov, and L. V. Wang, “Microcirculatory changes identified by photoacoustic microscopy in patients with complex regional pain syndrome type I after stellate ganglion blocks,” J. Biomed. Opt. 19(8), 086017 (2014). [PDF]

  10. Y. Zhou, W. Xing, K. I. Maslov, Lynn A. Cornelius, and L. V. Wang, “Handheld photoacoustic microscopy to detect melanoma depth in vivo,” Opt. Lett. 39(16), 4731-4734 (2014). [PDF]

  11. Y. Zhou, J. Yao, K. I. Maslov, and L. V. Wang, "Calibration-free absolute quantification of particle concentration by statistical analyses of photoacoustic signals in vivo," J. Biomed. Opt. 19(3), 037001 (2014). [PDF]

  12. Y. Zhou, J. Liang, K. I. Maslov, and L. V. Wang, "Calibration-free in vivo transverse blood flowmetry based on cross correlation of slow time profiles from photoacoustic microscopy," Opt. Lett. 38(19), 3882-3885 (2013). [PDF]

  13. [J. Liang, Y. Zhou], K. I. Maslov, and L. V. Wang, "Cross-correlation-based transverse flow measurements using optical resolution photoacoustic microscopy with a digital micromirror device," J. Biomed. Opt. 18(9), 096004 (2013). [PDF]

  14. Y. Zhou, J. Yao, and L. V. Wang, "Optical clearing-aided photoacoustic microscopy with enhanced resolution and imaging depth," Optics Letters 38(14), 2592-2595 (Jul. 2013). [PDF]

  15. [C. Zhang, Y. Zhou], C. Li, and L. V. Wang, “Slow-sound photoacoustic microscopy,” Applied Physics Letters 102(16), 163702 (Apr. 2013). [PDF]

  16. Y. Zhou, C. Zhang, D.-K. Yao, and L. V. Wang, “Photoacoustic microscopy of bilirubin in tissue phantoms,” Journal of Biomedical Optics 17(12), 126019 (Dec. 2012). [PDF]

Zhu, L.

  1. [L. Zhu, Y. Chen, J. Liang], Q. Xu, L. Gao, C. Ma, and L. V. Wang, “Space- and intesity- constrained reconstruction for compressed ultrafast photography,” Optica 3(7), 694-697 (2016). [Request PDF]

  2. L. Zhu, L. Li, L. Gao, L. V. Wang, "Multiview optical resolution photoacoustic microscopy", Optica 1(4), 217-222(2014). [PDF]

  3. [L. Gao, L. Zhu], C. Li, and L. V. Wang, "Nonlinear light-sheet fluorescence microscopy by photobleaching imprinting," Journal of The Royal Society Interface 11 (93), 0851(2013). [PDF]


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