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期刊论文

2017
[1]  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, 869-872, 2017 (IF: 25.328). SCI检索
[2]  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
[3]  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, doi:10.3791/55381, 2017 (IF:1.232).  SCI检索
[4]  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,已收录,2017。EI检索
[5]  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, DOI: 10.1039/c7mh00672a,2017 (IF=10.706 ). SCI检索
[6]  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
[7]  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, DOI: 10.1021/acsami.7b14076, Accepted, 2017 (IF=7.502). 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, DOI: 10.1002/adfm.201603758 ( 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, doi:10.1038/srep32240 (2016). (IF=5.228)
[4]    C. Liu, X. Gong, F. Liu , R. Lin , J. Chen, Z. Wang , L. S, 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).