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Xuefeng Shen
Life Science
University of Chinese Academy of Sciences
Guangdong
Language: Chinese, English
Synaptic Transmission
Cellular Mechanisms
Molecular Mechanisms
Neuroelectrochemistry
Electrochemical Sensors
Non-Enzymatic Sensors
Neuroscience
Electrophysiology
Neurobiology
Biochemistry
Areas of Focus
- Cellular and Molecular Mechanisms of Synaptic Transmission
- Neuroelectrochemical Techniques
- Non-enzymatic Electrochemical Sensors
Work Experience
- 2019-09 to Present - Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences - Associate Researcher
- 2016-07 to 2019-08 - Institute of Biophysics, Chinese Academy of Sciences - Assistant Researcher, Associate Researcher
Academic Background & Achievements
- 2011-09 to 2016-06 Ph.D. in Science: University of Chinese Academy of Sciences
- 2003-09 to 2008-06 Bachelor's in Medicine: Jilin University
Publications
- Investigation of novel de novo KCNC2 variants causing severe developmental and early-onset epileptic encephalopathy, Li, Lin, Liu, Zili, Yang, Haiyang, Li, Yang, Zeng, Qi, Chen, Li, Liu, Yidi, Chen, Yan, Zhu, Fengjun, Cao, Dezhi, Hu, Jun, Shen, Xuefeng, 2022
- Measurement of intact quantal packet of transmitters released from single nerve terminal by loose-patch amperometry, Chen, Peihua, Shen, Xuefeng, Zhao, Shuainan, Liu, Zili, Zhu, Qianwen, Zhu, Tao, Zhang, Shuli, Li, Yi, Mao, Lanqun, Sun, Jianyuan, 2021
- Loss of Dysbindin Implicates Synaptic Vesicle Replenishment Dysregulation as a Potential Pathogenic Mechanism in Schizophrenia, Hu, Han, Wang, Xuefeng, Li, Chao, Li, Yang, Hao, Junfeng, Zhou, Yuanli, Yang, Xiaopeng, Chen, Peihua, Shen, Xuefeng, Zhang, Shuli, 2021
- A novel approach with glass needle enclosed movable probe for in vivo real-time detection of glucose in cisternal cerebrospinal fluid, Tao, Jie, Zhu, Ying, Zhao, Shuainan, Chen, Peihua, Zhang, Shuli, Sun, Jianyuan, Shen, Xuefeng, 2020
- Non-enzymatic fructose sensing by platinum decorated graphene oxide nanocomposite, Zhao, Shuainan, Liu, Zili, Chen, Peihua, Sun, Jianyuan, Shen, Xuefeng, 2019
- Sr2+ has low efficiency in regulating spontaneous release at the Calyx of Held synapses, Zhang, Shuli, Wang, Xuefeng, Wang, Xiaohui, Shen, Xuefeng, Sun, Jianyuan, Hu, Xintian, Chen, Peihua, 2017
