Dr. Juan Deng obtained her Ph.D. degree in neuroscience at the Institute of Neuroscience, Chinese Academy of Sciences in 2018, under the guidance of Professor Yangang Sun. She went on to complete her postdoctoral training in the same laboratory, with support from the Postdoctoral Innovative Talent Support Program. Dr. Deng joined the Institute for Translational Brain Research (ITBR) at Fudan University as a Junior Principal Investigator in January of 2021. Her lab, whose focuses is on identifying the neural circuit and cellular mechanisms underlying/implicated in the development of chronic pain, is supported by several fundings:
National Science Fund for Excellent Young Scholars (2023)
National Natural Science Foundation of China (General Program) (2022)
Science and Technology Innovation 2030 -- a major project of "Brain Science and brain-like Research" (2022)
Lingang Laboratory “Outstanding Youth Program” (2022)
Shanghai Rising-Star Program (2021)
Email:wuyao_2021@163.com
Research Direction:N/A
Email:yxren@ustc.edu.cn
Research Direction:Multiphoton microscopy, light sheet microscopy, optical tweezers etc
Email:chkong@physik.uni-bielefeld.de
Research Direction:Multiphoton microscopy, Coherent Raman scattering microscopy, fs laser etc
Email:xiaoyujie@mail.bnu.edu.cn
Research Direction:Physiological properties and pathological alterations of ion channels and neurotransmitter receptors
Email:sy458@drexel.edu
Research Direction:Thalamocortical inputs regulate the development of inhibitory circuitry in the mPFC
Email:zhaoyg21@m.fudan.edu.cn
Research Direction:Thalamocortical inputs regulate the development of inhibitory circuitry in the mPFC
Email:dengp21@m.fudan.edu.cn
Research Direction: E-mail: dengp21@m.fudan.edu.cnResearch field: Multi-photon microscopy, Organoi
B. Li, C. Wu, M. Wang, K. Charan, and C. Xu, "An adaptive excitation source for high-speed multiphoton microscopy," Nature Methods 17, 163-166 (2020).
J. Yan, H. Yu, B. Li, A. Fan, J. Melkonian, X. Wang, T. Zhou, and J. Hua, "Cell autonomous and non-autonomous functions of plant intracellular immune receptors in stomatal defense and apoplastic defense," PLoS pathogens 15 (2019).
B. Li, "Reduction of the illumination power for high-speed multiphoton microscopy," Springer Nature (2019).
Y. Qin*, B. Li*, F. Xia, Y. Xia, and C. Xu, "Multi-color background-free coherent anti-Stokes Raman scattering microscopy using a time-lens source," Optics Express 26, 34474-34483 (2018).
B. Li, M. Wang, K. Charan, M.-j. Li, and C. Xu, "Investigation of the long wavelength limit of soliton self-frequency shift in a silica fiber," Optics Express 26, 19637-19647 (2018).
F. Xia, C. Wu, D. Sinefeld, B. Li, Y. Qin, and C. Xu, "In vivo label-free confocal imaging of the deep mouse brain with long-wavelength illumination," Biomedical Optics Express 9, 6545-6555 (2018).
M. Wang, C. Wu, D. Sinefeld, B. Li, F. Xia, and C. Xu, "Comparing the effective attenuation lengths for long wavelength in vivo imaging of the mouse brain," Biomedical Optics Express 9, 3534-3543 (2018).
M. Li, S. Sun, B. Li, H. Asghari, Y. Deng, W. Li, and N. Zhu, "Time-bandwidth compression of microwave signals," Optics Express 26, 990-999 (2018).
K. Charan, B. Li, M. Wang, C. P. Lin, and C. Xu, "Fiber-based tunable repetition rate source for deep tissue two-photon fluorescence microscopy," Biomedical Optics Express 9, 2304-2311 (2018).
F. Xia, D. Sinefeld, B. Li, and C. Xu, "Two-photon Shack–Hartmann wavefront sensor," Optics Letters 42, 1141-1144 (2017).
B. Li, K. Charan, K. Wang, T. Rojo, D. Sinefeld, and C. Xu, "Nonresonant background suppression for coherent anti-Stokes Raman scattering microscopy using a multi-wavelength time-lens source," Optics Express 24, 26687-26695 (2016).
B. Li and J. Azaña, "Theory of Incoherent-Light Temporal Imaging Systems Based on a Temporal Pinhole," Journal of Lightwave Technology 34, 2758-2773 (2016).
B. Li, S. Lou, and J. Azaña, "High-contrast linear optical pulse compression using a temporal hologram," Optics Express 23, 6833-6845 (2015).
B. Li, S. Lou, and J. Azaña, "Implementation of the photonic time-stretch concept using an incoherent pulsed light source," Applied Optics 54, 2757-2761 (2015).
B. Li, S. Lou, and J. Azaña, "Incoherent-light temporal imaging based on a temporal pinspeck," IEEE Photonic Technology Letters 27, 348-351 (2015).
B. Li and J. Azana, "Temporal Imaging of Incoherent-Light Intensity Waveforms Based on a Gated Time-Lens System," IEEE Photonics Journal 7, 1-8 (2015).
B. Li, S. Lou, and J. Azaña, "Novel Temporal Zone Plate Designs with Improved Energy Efficiency and Noise Performance," Journal of Lightwave Technology 32, 4201-4207 (2014).
B. Li and J. Azaña, "Incoherent-light temporal imaging of Intensity Waveforms," Opt. Photon. News, 33 (2014).
B. Li and J. Azaña, "Incoherent-light temporal stretching of high-speed intensity waveforms," Optics Letters 39, 4243-4246 (2014).
B. Li and S. Lou, "Elimination of Aberrations Due to High-Order Terms in Systems Based on Linear Time Lenses," Journal of Lightwave Technology 31, 2200-2206 (2013).
Address: Building B, Medical Research Building, 131 Dong
Postcode: 200032
Telephone/Fax: 021-54237056
Email: bo_li at fudan.edu.cn