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期刊论文

2018
[01] S. Wang*, X. Ma, X. Hong, Y. Chen, Y. Tian, S. Zhao, W. Liu, Y. Tang, R. Zhao, L. Song, Z. Teng, and G. Lu*, “Adjuvant Photothermal Therapy Inhibits Local Recurrences after Breast-Conserving Surgery with Little Skin Damage”, ACS Nano, 12 (1): 662–670, 2018(SCI, IF=13.942).
[02] 林日强,冷吉,陈敬钦,刘成波龚小竞宋亮*,“面向临床应用的光声成像技术”,中国医疗设备,33(1),2018. 
[03] D. Hu, Z. Sheng*, M. Zhu, X. Wang,  F. Yan, C. Liu, L. Song, M. Qian, X. Liu and H. Zheng*, “Förster Resonance Energy Transfer-Based Dual-Modal Theranostic Nanoprobe for In Situ Visualization of Cancer Photothermal Therapy”, Theranostics, 8(2):410-422, 2018(SCI, IF=8.766). 
[04] X. Li, H. Li, X. He, T. Chen, X. Xia, C. Yang, and W. Zheng*, “Spectrum- and time-resolved endogenous multiphoton signals reveal quantitative differentiation of premalignant and malignant gastric mucosa”, Biomedical Optics Express, 9(2): 453-471, 2018 (SCI, IF=3.337). 
[05]  李慧,夏先园,陈廷爱,余佳,李曦,郑炜*,“双光子荧光寿命成像在肿瘤诊断研究中的应用”,中国激光,45(02),2018。EI检索
[06] [M. Li, C. Liu*]1, X. Gong, R. Zheng, Y. Bai, M. Xing, X. Du, X. Liu, J. Zeng, R. Lin, H. Zhou, S. Wang, G. Lu, W. Zhu, C. Fang, and L. Song*, "Linear array-based real-time photoacoustic imaging system with a compact coaxial excitation handheld probe for noninvasive sentinel lymph node mapping." Biomedical Optics Express, 9(4): 1408-1422, 2018. (SCI, IF=3.337)
[07] J. Chen, X. Li, X. Liu, H. Yan, Z. Xie, Z. Sheng, X. Gong, L. Wang, X. Liu, P. Zhang, H. Zheng, L. Song, and C. Liu*, "Hybrid MoSe2-indocyanine green nanosheets as a high-efficient phototheranostic agent for photoacoustic imaging guided photothermal cancer therapy." Biomaterials Science, 6,1503-1516, 2018. (SCI, IF=4.210)
[08] H. Zhao, G. Wang, R. Lin, X. Gong, L. Song, T. Li, W. Wang, K. Zhang, X. Qian, H. Zhang, L. Li, Z. Liu*, and C. Liu*, "Three Dimensional Hessian matrix based quantitative vascular imaging of rat iris with optical-resolution photoacoustic microscopy." Journal of Biomedical Optics, 23(4)1-11, 2018. (SCI, IF=2.530)
[09] [C. Liu, J. Chen, Y. Zhu]1, X. Gong, R. Zheng, N. Chen, D. Chen, H. Yan, P. Zhang, H. Zheng, Z. Sheng* and Liang Song*, "Highly sensitive MoS2-Indocyanine green hybrid for photoacoustic imaging of orthotopic brain glioma at deep site." Nano-Micro Letters, 10(3), 2018. (SCI, IF=4.849)
[10] [X. Lin, C. LiuX. Gong, J. Meng]1R. Lin, M. Sun*, and L. Song*, "Dual-foci detection in photoacoustic computed tomography with coplanar light illumination and acoustic detection-A phantom study." Journal of Biomedical Optics, 23(5):1-4, 2018. (SCI, IF=2.530)
[11] M. Wu, W. Chen, Y. Chen, H. Zhang, C. Liu, Z. Deng, Z. Sheng, J. Chen, X. Liu, F. Yan* and H. Zheng*, "Focused Ultrasound-Augmented Delivery of Biodegradable Multifunctional Nanoplatforms for Imaging-Guided Brain Tumor TreatmentAdvanced Science, 5(4), 1700474, 2018. (IF=2.530)
[12] Li Y., Lin R., Liu C., Chen J., Liu H., Zheng R., Gong X.*, Song L.*, "In vivo photoacoustic/ultrasonic dual-modality endoscopy with a miniaturized full field-of-view catheter.Journal of Biophotonics, 11(10), 2018. (SCI, IF=3.914)
[13] [X. Lin, C. Liu], Z. Sheng, X. Gong, L. Song, R. Zhang, H. Zheng,* and M. Sun*, “Highly Sensitive Fluorescence and Photoacoustic Detection of Metastatic Breast Cancer in Mice Using Dual-Modal Nanoprobes”, ACS Appl. Mater. Interfaces, 10(31): 26064−26074, 2018.(SCI, IF=8.097)
[14] [W. Xu, J. Chen,S. Sun], Z. Tang, K. Jiang, L. Song, Y. Wang,* C. Liu * and H. Lin *, ”Fluorescent and photoacoustic bifunctional probe for the detection of ascorbic acid in biological fluids, living cells and in vivo”, Nanoscale,10(37): 17834-17841, 2018. (SCI, IF=7.233)
[15] Y. Bai, B. Cong, X. Gong, L. Song, C. Liu*, "Compact and low-cost handheld quasibright-field linear-array probe design in photoacoustic computed tomography." Journal of Biomedical Optics, 23(12): 112606, 2018. (SCI, IF: 2.530)  (*Corresponding Author)
[16]  陈廷爱, 陈龙超, 李慧, 余佳, 高玉峰, 郑炜*,“结构光照明超分辨光学显微成像技术与展望”,中国光学,11(03):307-328,2018。EI检索
[17] [W. Qin, P. Zhang, H. Li], Jacky W. Y. Lam, Y. Cai, Ryan T. K. Kwok, J. Qian, W. Zheng, Ben Zhong Tang*, "Ultrabright red AIEgens for two-photon vascular imaging with high resolution and deep penetration", Chemical Science, 2018, 9, 2705-2710, 2018. (SCI, IF = 8.668)
[18] Z.Sheng, B.Guo, D.Hu, S.Xu, W. Wu, W.H.Liew, K.Yao, J.Jiang, C.Liu, H.Zheng,* and B.Liu*,"Bright Aggregation-Induced-Emission Dots for Targeted Synergetic NIR-II Fluorescence and NIR-I Photoacoustic Imaging of Orthotopic Brain Tumors", Advanced Materials, 30(29): 1800766, 2018 (SCI, IF=21.950)
[19] B.Guo, Z.Sheng, D.Hu, C.Liu, H.Zheng*, and B.Liu*, "Through Scalp and Skull NIR-II Photothermal Therapy of Deep Orthotopic Brain Tumors with Precise Photoacoustic Imaging Guidance", Advanced Materials, 30(35):1802591, 2018 (SCI, IF=21.950)
[20] J. Meng*, C. Liu, Jeesu Kim, Chulhong Kim, and L.Song*,"Compressed Sensing With a Gaussian ScaleMixture Model for Limited View Photoacoustic Computed Tomography In Vivo", Technology in Cancer Research & Treatment (TCRT), 17: 1-11, 2018 (SCIE, IF=1.646)
[21] G. Xu, X.Bao, J.Chen, B.Zhang, D.Li, D.Zhou, X.Wang, C.Liu, Y.Wang*, S.Qu*,“In Vivo Tumor Photoacoustic Imaging and Photothermal Therapy Based on Supra-(Carbon Nanodots)”,Advanced Healthcare Materials, DOI: 10.1002/adhm.201800995, 2018 (SCI,IF=5.609)
[22] X.Bao, Y.Yuan, J.Chen, B. Zhang, D. Li, D. Zhou, P. Jing, G. Xu, Y. Wang,K. Holá, D. Shen, C. Wu, L. Song, C. Liu*, R. Zbořil* and S. Qu*, "In vivo heranostics with near-infraredemitting carbon dots—highly efficient photothermal therapy based on passive targeting after intravenous administration", Light: Science & Applications, 7 (91), 2018 (SCI, IF=13.625)
[23] W.Song, Y.Wu, Y.Gao, T.Chen, W.Zheng, H.Fang, L.Song* and X.Yuan*, "Flexibly adjustable depth-of-focus photoacoustic microscopy with spatial light modulation", Applied Physics Letters,113,163502 (2018) (SCI, IF=3.459)
[24] J. Hong, M. Su, Y. Yu, Z. Zhang, R. Liu, Y. Huang, P. Mu, H. Zheng*, and W. Qiu*, "A dual-mode imaging catheter for intravascular ultrasound application",  IEEE Transactions on Medical Imaging, DOI: 10.1109/TMI.2018.2869942, 2018(SCI, IF=6.131)
[25] W. Liu, Y. Tian, Y. Zhang, K. Liu, S. Zhao, J. Zhang, Y. Su, Y. Zhao, Y. Tang, J.Sun, W. Tian, L. Song, Z. Teng*, S. Wang* and G. Lu* ,"Timely coordinated phototherapy mediated by mesoporous organosilica coated triangular gold nanoprisms", Journal of Materials Chemistry B, 6(23):3865-3875, 2018 (SCI, IF=4.776)
[26] Y.Huang, X.Li, L.Zhang, X.Chen, C. Liu, J. Chen, Y. Wang*, and X. Shuai, "Multifunctional Nanoplatform Based on pH-responsive Micelle Coated with Discontinuous Gold Shell for Cancer Photothermo-chemotherapy and Photoacoustic Tomography", Chinese Journal of Polymer Science, 36(10):1139-1149, 2018 (SCI,IF=2.016)
[27] F. Yang, W.Song, C.Zhang*, C.Min, H.Fang, L.Du, P.Wu, W.Zheng, C.Li, S.Zhu and X.Yuan *, "Broadband graphene-based photoacoustic microscopy with high sensitivity", Nanoscale,10(18): 8606-8614, 2018 (SCI, IF=7.233)
[28] C. Li, J. Shi, X. Gong, C. Kong, Z. Luo, L. Song, and Kenneth K. Y. Wong, "1.7  μm wavelength tunable gain-switched fiber laser and its application to spectroscopic photoacoustic imaging", Optics Letters, 43(23): 5849-5852, 2018 (SCI, IF=3.589)

 
2017
[01]  W. Zheng*, Y. Wu, P. Winter, R. Fischer, D. D. Nogare, A. Hong, C. McCormick, R. Christensen, W. P Dempsey, D. B Arnold, J. Zimmerberg, A. Chitnis, J. Sellers, C.  Waterman & H. Shroff, “Adaptive optics improves multiphoton super-resolution imaging”, Nature Methods, 14(9): 869-872, 2017 (IF: 25.328). SCI检索
[02]  高玉峰,夏先园,李慧,郑炜*,“利用波前调制技术提升光透明样品的双光子成像分辨率”,中国激光,44(1):245-252,(2017) EI检索
[03]  Li, J., Jahr, H., Zheng, W., Ren, P. G.*, "Visualizing Angiogenesis by Multiphoton Microscopy In Vivo in Genetically Modified 3D-PLGA/nHAp Scaffold for Calvarial Critical Bone Defect Repair", Jove-Journal of Visualized Experiments, 127: e55381 , 2017 (IF:1.232).  SCI检索
[04]  Guo, B., Sheng, Z., Kenry, Hu, D., Lin, X., Xu, S., Liu, C., Zheng, H.*, Liu, B.*,  "Biocompatible Conjugated Polymer Nanoparticles for Highly Efficient Photoacoustic Imaging of Orthotopic Brain Tumor in Second Near-Infrared Window", Materials Horizons, 4(6):1151-1156, 2017 (IF=10.706 ). SCI检索
[05]  Guo B., Sheng Z., Hu D., Li A., Xu S., Manghnani PN., Liu C., Guo L., Zheng H.*, Liu B.* "Molecular Engineering of Conjugated Polymers for Biocompatible Organic Nanoparticles with Highly Efficient Photoacoustic and Photothermal Performance in Cancer Theranostics", Acs Nano., 11(10):10124-10134, 2017 Oct 24. (IF=13.942). SCI检索
[06]  M. Zhu, Z. Sheng, Y. Jia, D. Hu, X. Liu, X.Xia, C. Liu, P. Wang, X. Wang*, and H. Zheng*, "Indocyanine Green-holo-Transferrin Nanoassemblies for Tumor-Targeted Dual-Modal Imaging and Photothermal Therapy of Glioma", ACS Applied Materials & Interfaces, 9(45):39249-39258, 2017 (IF=7.502). SCI检索
[07] Zhou G., Xiao H., Li X., Huang Y., Song W., Song L., Chen M., Cheng  D.*, Shuai X.*, “Gold nanocage decorated pH-sensitive micelle for highly effective photothermo-chemotherapy and photoacoustic imaging.” Acta Biomaterialia, 64:223-236, 2017 (IF=6.319).SCI 检索

2016
[1]    J. Chen, C. Liu, D. Hu, F. Wang, H. Wu, X. Gong, X. Liu, L. Song*, Z. Sheng*, H. Zheng*,  "Single-Layer MoS2 Nanosheets with Amplified Photoacoustic Effect for Highly Sensitive Photoacoustic Imaging of Orthotopic Brain Tumors", Advanced Functional Materials, 26(47) :8715-8725 ( 2016). (IF=11.382)
[2]   D. Hu, C. Liu, L. Song, H. Cui, G. Gao, P. Liu, Z. Sheng* and L. Cai*, "Indocyanine green–loaded polydopamine–iron ions coordination nanoparticles for photoacoustic/magnetic resonance dual-modal imaging-guided cancer photothermal therapy", Nanoscale, 8(39):11750-11758 (2016). (IF=7.760)
[3]    W. Song, Q. Xu, Y. Zhang, Y. Zhan, W. Zheng*, L. Song*, "Fully integrated reflection-mode photoacoustic, two-photon, and second harmonic generation microscopy in vivo", Scientific Reports, 6:32240 (2016). (IF=5.228)
[4]    C. Liu, X. Gong, F. Liu , R. Lin , J. Chen, Z. Wang , L. Song*, J. Chu*, "Advances in imaging techniques and genetically encoded probes for photoacoustic imaging". Theranostics, 6(13): 2414-2430 (2016).(IF=8.854)
[5]    J. Meng, Z. Jiang, L. Wang, J. Park, C. Kim, M. Sun, Y. Zhang, L. Song*, "High-speed sparse-sampling 3D photoacoustic computed tomography in vivo based on principal component analysis." Journal of Biomedical Optics, 21(7): 076007 (2016). (IF=2.55)
[6]    J. Chu, Y. Oh, A. Sens, N. Ataie, H. Dana, J. J. Macklin, T. Laviv, E. S. Welf, K. M. Dean, F. Zhang, B. Kim, C. Tang, M. Hu, M. Baird, M. Davidson, Mark. Kay, R. Fiolka, R. Yasuda, D. Kim, Ho-Leung Ng, M. Lin*, "A bright cyan-excitable oragne fluorescent protein facilitates dual-emission microscopy and enhances bioluminescence imaging in vivo", Nature Biotechnology,doi:10.1038/nbt.3550(2016).(IF=43.113)
[7]    J. Li, Q. Xu, B. Teng, C. Yu, J. Li, L. Song, Y. Lai, J. Zhang, W. Zheng*, P. Ren*, "Investigation of angiogenesis in bioactive 3-dimensional poly(d,l-lactide-co-glycolide)/nano-hydroxyapatite scaffolds by in vivo multiphoton microscopy in murine calvarial critical bone defect", Acta Biomaterialia, doi:10.1016/j.actbio.2016.06.024 (2016). (IF=6.008)
[8]    E. S. Welf, M.K. Driscoll, K. M. Dean, C. Scha¨ fer, J. Chu, M. W. Davidson, M. Z. Lin, G. Danuser,* and R. Fiolka*, "Quantitative Multiscale Cell Imaging in Controlled 3D Microenvironments", Developmental Cell, 36(4):462-75 (2016). (IF=9.338)
[9]    B. Bajar, E. Wang1, A. Lam, B. Kim, C. Jacobs,E. Howe, M. Davidson, M. Lin*, J. Chu*, "Improving brightness and photostability of green and red fluorescent proteins for live cell imaging and FRET reporting", Scientific Rerpots, 6:20889(2016).(IF=5.228)
[10]    J. Li, H. Xiao, S. J. Yoon, C. Liu, D. Matsuura, W. Tai, L. Song*, M. O’Donnell*, D. Cheng*, X. Gao*. “Functional Photoacoustic Imaging of Gastric Acid Secretion Using pH-Responsive Polyaniline Nanoprobes.” Small, DOI: 10.1002/smll.201601395(2016). (IF=8.31)
[11]    J. Park, S. Jeon, J. Meng, L. Song, Jin Lee, C. Kim, "Delay-multiply-and-sum-based synthetic aperture focusing in photoacoustic microscopy." Journal of Biomedical Optics, 21(3): 036010 (2016). (IF=2.55)
[12]    Y. Zhu, X. Chen, X. Zhang, S. Chen, Y. Shen*, L. Song,"Modeling the mechanical properties of liver fibrosis in rats", Journal of Biomechanics, 49,1461–1467(2016).(IF=2.431)
[13]    J. Li, B. Teng, R. Lin, C. She, Z. Yao, J. Zhang, L. Song, P.Ren*, "Neovasculature in 3D-PLGA/nHAp Scaffolds for Murine Critical Sized Bone Defect Regeneration by Photoacoustic Imaging: A Preliminary Study", International Advanced Research Journal in Science, Engineering and Technology, 3(4), (2016).(IF: 5.332)
[14]     J. Chen, C. Liu, G. Zeng, Y. You, H. Wang, X. Gong, R. Zheng, J. Kim, C. Kim and L. Song*, "Indocyanine Green Loaded Reduced Graphene Oxide for In Vivo Photoacoustic/Fluorescence Dual-Modality Tumor Imaging", Nanoscale Research Letters, 11(1),85-88 (2016).( IF: 2.779).
[15]     C. Li, N. Chen, X. Wei, J. Kang, B. Li, S. Tan, L. Song, and K. K. Y. Wong, " High-power widely tunable all-fiber thuliumassisted optical parametric oscillator at SWIR band", Optics Letters, 41(22), 5258-5261 (2016). ( IF:3.04).
[16]     N. Chen, B. Li, J. Kang, X. Wei, S. Tan, C. Li, L. Song, and K. K. Wong, " Widely tunable time-division-multiplexed pumped fiber optical parametric oscillator", CLEO: Applications and Technology 2016, San Jose, California United States, JTu5A.64 ( 5–10 June 2016).
[17]   J. Zhang, L. Ren, X. Mei, W. Zheng*, Z. Liu*, “Microstructure visualization of conventional outflow pathway and finite element modeling of trabecular meshwork”, BioMedical Engineering OnLine, 15(Suppl 2): 323-334, (2016). (IF: 1.382). SCI检索


2015:  
[1]    X. Mei, L. Ren, Q. Xu, W. Zheng*, Z, Liu*, “Effect of persistent high intraocular pressure on microstructure andhydraulic permeability of trabecularmeshwork,”Chinese Physics B, 24(5), 058701 (2015). (IF: 1.603).
[2]    Q, Sun, W. Zheng, J. Wang, Y, Luo, J. Qu*, “Mechanism of two-photon excited hemoglobin fluorescence emission,Journal of Biomedical Optics, 20(10), 105014 (2015).( IF:2.752).
[3]    [Y. Li, X. Gong], C. Liu, R. Lin, William Hau, X. Bai, L. Song*, “High-speed intravascular spectroscopic photoacoustic imaging at 1000 A-lines per second with a 0.9 mm diameter catheter,” Journal of Biomedical Optics, 20(6), 065006 (2015).(IF:2.752).
[4]    J. Yao, L. Song, and L. V. Wang, “Photoacoustic Microscopy: Superdepth, superresolution, and super contrast,” IEEE Pulse, 6(3), 34-37 (2015) (IF: 0.663).
[5]    [J. Mou, C. Liu,] , P. Li, Y. Chen, H. Xu, C. Wei, L. Song*, J. Shi, H. Chen*, “A Facile Synthesis of Versatile Cu2-xS Nanoprobe for Enhanced MRI and Infrared Thermal/Photoacoustic Multimodal Imaging,” Biomaterials, 57, 12-21(2015) (IF: 8.312).
[6]    G. Hao*, F. Jing, L. Song, “Limited-View Multi-Source Quantitative Photoacoustic Tomography,” Inverse Problems, 31, 065004(2015) (IF: 2.39).
[7]    J. Mou, P. Liu, C. Liu, H. Xu, L. Song, J. Wang, K. Zhang, Y. Chen, J. Shi*, and H. Chen*, “Ultrasmall Cu2-xS Nanodots for Highly Efficient Photoacoustic Imaging-Guided Photothermal Therapy,” Small, 11(19), 2275-2283(2015) (IF: 7.514).
[8]    D. Gao, P. Zhang, C. Liu, C. Chen, G. Gao, Y. Wu, Z. Sheng, L. Song, L. Cai*, “Compact chelator-free Ni-integrated CuSnanoparticles with tunable near-infrared absorption and enhanced relaxivity for in vivo dual-modal photoacoustic/MR imaging,” Nanoscale, 7, 17631-17636(2015) (IF: 7.760).
[9]    C. Lee, J. Kim, Y. Zhang, M. Jeon, C. Liu, L. Song, J. Lovell*, C. Kim*, “Dual-color photoacoustic lymph node imaging using nanoformulatednaphthalocyanines,” Biomaterials, 73, 142-148(2015) (IF: 8.312).

2014:
[1]    [R. Lin, J. Chen], H. Wang, M. Yan,W. Zheng, and L. Song*, "Longitudinal label-free optical-resolution photoacoustic microscopy of tumor angiogenesis in vivo," Quantitative Imaging in Medicine and Surgery,5, 23-29(2014).
[2]    [W. Song, W. Zheng, R. Liu], R. Lin, H. Huang,X. Gong, S. Yang, R. Zhang and L. Song*, "Reflection-mode in vivo photoacoustic microscopy with subwavelength lateral resolution," Biomedical Optics Express, 5, 4235-4241 (2014) (IF: 3.497).
[3]    [H. Wang, C. Liu], X. Gong, D. Hu, R. Lin, Z. Sheng, C. Zheng, M. Yan, J. Chen, L. Cai and L. Song*, "In vivo photoacoustic molecular imaging of breast carcinoma with folate receptor-targeted indocyanine green nanoprobes," Nanoscale, 6, 14270-14279 (2014) (IF: 6.739).
[4]    J. Jian, C. Liu, Y. Gong, L. Su, B. Zhang, Z. Wang, D. Wang, Y. Zhou, F. Xu, P. Li, Y. Zheng, L. Song*, and X. Zhou*, "India ink incorporated multifunctional phase-transition nanaodroplets for photoacoustic/ultrasound dual-modality imaging and photoacoustic effect based tumor therapy,Theranostics, 4, 1026-1038 (2014) (IF: 7.827).
[5]    X. Bai, X. Gong, W. Hau, J. Zheng, C. Liu, R. Lin, X. Zou, C. Zeng, H. Zheng, and L. Song*, “Intravascular optical-resolution photoacoustic tomography with a 1.1 mm diameter catheter,” PLOS One,9, e92463-e92463 (2014) (IF: 4.24).
[6]    J. Meng, C. Liu, J. Zheng, R. Lin, and L. Song*, “Compressed sensing based virtual-detector photoacoustic microscopy in vivo,” Journal of Biomedical Optics,19, 036003 (2014) (IF: 3.16).
[7]    [Z. Yang, J. Chen], J. Yao, R. Lin, J. Meng, C. Liu, J. Yang, X. Li, L. Wang, and L. Song*, “Multi-parametric quantitative microvascular imaging with optical-resolution photoacoustic microscopy in vivo,” Optics Express,22,1500-1511 (2014) (IF: 3.59).

2013:
[1]   J. Meng, and L. Song*,“Biomedical photoacoustics in China,” Photoacoustics,1,43-48 (2013).
[2]   [Z. Sheng, L. Song, J. Zheng]#, D. Hu, M. He, M. Zheng, G. Gao, P. Gong, P. Zhang, Y. Ma, and L. Cai*, "Protein-assisted fabrication of nano-reduced graphene oxide for combined in vivo photoacoustic imaging and photothermal therapy,” Biomaterials,34,5236–5243 (2013) (#equal contribution) (IF: 7.40).
[3]   [J. Chen and R. Lin], H. Wang, J. Meng, H. Zheng, and L. Song*, “Blind-deconvolution optical-resolution photoacoustic microscopy in vivo,” Optics Express,21,7316-7327 (2013) (*corresponding author) (IF: 3.59).
[4]   S. Teh, W. Zheng, S. Li, D. Li, Y. Zeng, Y. Yang, and Y. Qu, "Multimodal nonlinear optical microscopy improves the accuracy of early diagnosis of squamous intraepithelial neoplasia"Journal of Biomedical Optics,18, 036001 (2013)(IF: 3.16).

2012:
[1]  J. Meng, L. V. Wang, D. Liang, and L. Song*,In vivo optical-resolution photoacoustic computed tomography with compressed sensing,” Optics Letters,37,4573-4575 (2012) (*corresponding author)(IF: 3.4).
[2]  J. Meng, L. V. Wang, L. Ying, [D. Liang* and L. Song*], “Compressed-sensing photoacoustic computed tomography in vivo with partially known support," Optics Express,20,16510-16523 (2012) (*corresponding author) (IF: 3.59).

2011:
[1]  L. Song, K. Maslov, and L. V. Wang, “Multi-focal optical-resolution photoacoustic microscopy in vivo,” Optics Letters,36,1236 (2011)(IF: 3.4).
[2]  D. Li*, W. Zheng*, W. Zhang, S. K. Teh, Y. Zeng, Y. Luo, and J. Y. Qu, “Time-resolved detection enables standard two-photon fluorescence microscope for in vivo label-free imaging of microvasculature in tissue," Optics Letters,36,2638-2640 (2011) (* equal contribution)(IF: 3.4).
[3]  W. Zheng*, D. Li*, Y. Zeng, Y. Luo and J. Y. Qu, "Two-photon excited hemoglobin fluorescence," Biomedical Optics Express,2,71-79 (2011) (* equal contribution).
[4]  W. Zheng, D. Li, S. X.?Li, Y. Zeng, Y.?Q. Yang and J. Y. Qu, "Diagnostic value of nonlinear optical signals from collagen martix in the detecation of epithelial precancer," Optics Letters, 36,(3620) (2011)(IF: 3.4).
[5]  D. Li*, W. Zheng*, Y. Zeng, Y. Luo and J. Y. Qu, "Two-photon excited hemoglobin fluorescence provides contrast mechanism for label-free imaging of microvasculature in vivo," Optics Letters,36,834-836 (2011) (* equal contribution)(IF: 3.4).

2010:
[1]  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 (2010)(IF: 3.16).
[2]  C. Kim, T. Erpelding, K. Maslov, L. Jankovic, W. Akers, L. Song, S. Achilefu, J. Margenthaler, M. Pashley, and L. V. Wang, “Hand-held array-based photoacoustic probe for guiding needle biopsy of sentinel lymph nodes,” Journal of Biomedical Optics,15, 046010 (2010)(IF: 3.16).
[3]  Z. Guo, C. Li, L. Song, L. V. Wang, “Compressed sensing in photoacoustic tomography in vivo,” Journal of Biomedical Optics,15, 021311 (2010)(IF: 3.16).
[4]   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 (2010)(IF: 3.4).

2009:
[1]   L. Song, C. Kim, K. Maslov, K. K. Shung, and L. V. Wang, “High-speed dynamic photoacoustic imaging of sentinel lymph node in a murine model using an ultrasound array,” Medical Physics,36,3724 (2009) ( IF: 2.83).

2008:
[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 (2008) (*equal contribution) (IF: 3.59).
[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 (2008) (IF: 3.59).
[3]   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 (2008) (IF: 3.16).
[4]   W. Zheng, Y.C. Wu, D. Li and J. Y. Qu, "Epithelial autofluorescence: single- versus two-photon excitation", Journal of Biomedical Optics,13,054010 (2008)(IF: 3.16).

2006:
[1]   L. Song, X. Wang and W. K. Lee,“Ac electric field assisted photo-induced high efficiency orientational diffractive grating in nematic liquid crystals,” Optics Express,14,2197 (2006) (IF: 3.59).
[2]   L. Song and W. K. Lee, “Laser induced self-phase modulation in nematic liquid crystals and effects of applied dc electric field,” Optics Communications,259, 293 (2006) (5-year IF: 1.47). (IF: 3.16).