郑羽

作者:发布时间:2019-03-19浏览次数:2704

郑羽

男,教授,硕导,博导



招生专业:生物医学工程(学硕、专硕)、信息与通信工程(学硕、专硕)

研究方向:生物电磁效应、神经电生理、生物医学仪器设计、海洋通信技术

    箱:zhengyu@tiangong.edu.cn,联系电话:18222128406

个人简介

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    天津工业大学生命科学学院教授,硕士生导师,长期从事电磁场对细胞电活动和突触可塑性的作用机理,及生物医学仪器和海洋通信方面的基础研究工作,先后主持和参与承担科技部、国家自然科学基金委、天津市科技局等科研项目10余项。发表学术论文80余篇,以第一作者或通信作者在IEEE TIMBBRCJ Neuro ResJournal of Membrane BiologyIEEE Transactions on MagneticsBioelectromagneticsEPLInternational Journal of Radiation BiologyRSISCI期刊论文30余篇。主编《传感器与医学工程》教材1部,参编《生物医学电子学》等教材5部,主讲《传感器与医学工程》,《生命科学导论》等本科生和研究生课程。

近三年主持的科研项目 —————————————————————————

1. 航天医学实验领域项目,长期在轨航天员睡眠问题对脑力疲劳的影响规律和对抗措施研究,在研,主持

2. 国家自然科学基金面上项目,亚毫米尺寸植入式多通道微磁刺激装置设计及其对海马区Schaffer-CA1突触可塑性靶向性协同调控机制研究,在研,主持

3. 国家自然科学基金面上项目,亚毫米尺寸阵列式微磁刺激装置设计及其对海马区Schaffer-CA1突触可塑性调控机理的研究,已结题,主持

4. 天津市自然科学基金面上项目,“ELF-EMFs磁刺激对海马CA1区突触传递效能影响的机制研究,在研,主持

5. 天津市自然科学基金面上项目,“XCTD时变信道建模方法和传输性能研究,已结题,主持

近五年主要学术论文 —————————————————————————

(1)Y. Zheng; J. Yuan; X. Guo; X. Zhang; H. Li; Analysis of influence of impedance matching on signal transmission through long wires of XCTD profiler, IEEE Transactions on Instrumentation and Measurement, 06 January 2020, DOI: 10.1109/TIM.2019.2962561.

(2)Zheng, Yu; Ma, Xiao-xu; Dong, Lei; Ma, Wei; Cheng, Jian-hao, Effects of uninterrupted sinusoidal LF-EMF stimulation on LTP induced by different combinations of TBS/HFS at the Schaffer collateral-CA1 of synapses, Brain Research, 2019, 1725, 146487.

(3)Zheng, Yu et al., Effects of exposure to extremely low frequency electromagnetic fields on hippocampal long-term potentiation in hippocampal CA1 region, Biochemical and Biophysical Research Communications, 2019, 517(3)513~519.

(4)Yu Zheng; Xing-Xin Guo; Hong-zhi Li; Xiao-rui Wang; Xiao-yang Zhang; Design of Algorithm for Multicarrier Modulation to Improve Transmission Performance of Inductive Coupling Temperature–Salinity–Depth Chain, IEEE Communications Letters , 2019, 23(6), 995–998.

(5)Zheng, Y; Zhang, X; Wang, X; Guo, X; Li, H; Methods to Improve the Long Distance Time-Varying Channel Transmission Performance of Expendable Profiler, China Ocean Engineering, 2019, 33: 753–761.

(6)Zheng, Yu; Tian, Chun-xiao; Dong, Lei; et.al, Extreme Low Frequency Electromagnetic Field Stimulation Induces Metaplastic-Like Effects on LTP/ LTD, IEEE Access, 2019,7, 152919~152927.

(7)Zheng, Yu; Ma, Xiao xu; Dong, Lei; Gao, Yang; Tian, Lei; Effects of single- and hybrid-frequency extremely low-frequency electromagnetic field stimulations on long-term potentiation in the hippocampal Schaffer, International Journal of Radiation Biology, 2019, 95(9)1319~1325 .

(8)Dong L, Zheng Y*, Li ZY, Li G, Lin L. Modulating effects of on-line low frequency electromagnetic fields on hippocampal long-term potentiation in young male Sprague-Dawley rat. Journal of Neuroscience Research, 2018, 96: 1775~1785.

(9)Zheng, Yu; Wang, Xiao-rui; Zhang, Xiao-Wei; Li, Hong-Zhi; Jin, Xiang-Yu; Improving transmission reliability of inductive coupling temperature-salinity-depth mooring cable system, Ocean Engineering, 2018, 147: 488-495.

(10)Yu Zheng; Xiaocong Qin; Hongzhi Li; Xiaowei Zhang; Sai Zhang; Three-level distributed analysis for transmission performance of deep-sea electromagnetic inductive coupling temperature-salinity-depth chain, Journal of Geophysics and Engineering, 2019, 16(3), 611–619.

(11)Zheng, Yu; Qin, Xiao-cong; Dong, Lei; Dou, Jun-rong; Wang, Hui-quan; Zhou, Mei, Effect of ion concentration on the temperature measurement model of extracellular fluid by near-infrared spectroscopy, Optik, 2018, 156: 128~134.

(12)Zheng, Yu; Xue, Jing; Gao, Yang; Dong, Lei; Dou, Jun-rong; Ma, Wei, Possible Effects of Electric Fields on a Pair of Spherical Cells, Journal of Membrane Biology, 2017.10, 250(5): 433~440.

(13)Zheng, Yu; Ma, Wei; Dong, Lei; Dou, Jun-rong; Gao, Yang; Xue, Jing, Influence of the on-line ELF-EMF stimulation on the electrophysiological properties of the rat hippocampal CA1 neurons in vitro, Review of Scientific Instruments, 2017.10, 88(10): 1~5.

(14)Zheng, Yu; Dou, Jun-rong; Gao, Yang; Dong, Lei; Li, Gang, Effects of 15 Hz square wave magnetic fields on the voltage-gated sodium and potassium channels in prefrontal cortex pyramidal neurons, International Journal of Radiation Biology, 2017.4, 93(4): 449~455.

(15)Gao, Yang; Zheng, Yu*; Chen, Ruijuan; Wang, Hui-Quan; Dong, Lei; Dou, Junrong, Possible Mechanism for Effects Caused by Exposure to Extremely Low Frequency Magnetic Fields, Ieee Transactions ON Magnetics, 2016.12, 52(12): 1~8.

(16)Zheng, Yu; Gao, Yang; Chen, Ruijuan; Wang, Huiquan; Dong, Lei; Dou, Junrong, A new theoretical model for transmembrane potential and ion currents induced in a spherical cell under low frequency electromagnetic field,Bioelectromagnetics, 2016.10, 37(7): 481~492.

(17)Zheng, Yu; Dong, Lei; Gao, Yang; Dou, Jun-Rong; Li, Ze-Yan, A comparison of 15 Hz sine on-line and off-line magnetic stimulation affecting the voltage-gated sodium channel currents of prefrontal cortex pyramidal neurons, Epl,2016.10, 116(1): 1~6.

(18)Zheng, Yu; Dong, Lei; Gao, Yang; Qiu, Qian; Li, Ze-yan; Zhao, Zhe; Chen, Rui-juan; Wang, Hui-quan, Simulation and experimental study of DC electric field distribution characteristics of rat hippocampal slices in vitro, Review of Scientific Instruments, 2016.6, 87(6): 1~10.

(19)Zheng, Yu; Dong, Lei; Kong, Ying; Hong, Hui; Gao, Yang; Zhao, Zhe; Wang, Hui-quan, Patch-clamp recordings of thermal effects of magnetic stimulation on the physiological characteristic of rat hippocampal neurons, Archives of Biological Sciences, 2016, 68(3): 567~573.

(20)郑羽; 蔡迪; 王金海; 李刚; 林凌脉冲磁场对神经元动作电位发放的影响生理学报, 2014.8, (04): 438~448.