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鲁艺
Life Science
中国科学院大学
广东
Language: 中文, 英语
神经环路
调控
技术研发
应用
生物传感
生物材料
神经科学
生物医学工程
神经生物学
神经界面
Areas of Focus
- 神经环路解析和调控技术研发及应用
- 生物传感技术
- 生物材料
Work Experience
- 2018-12 至今 - 中国科学院深圳先进技术研究院 - 研究员
- 2012-09 至 2018-11 - 中国科学院深圳先进技术研究院 - 副研究员
- 2010-06 至 2012-09 - 中国科学院深圳先进技术研究院 - 助理研究员
Academic Background & Achievements
- 2005-09 至 2010-06 理学博士: 武汉大学
- 2001-09 至 2005-06 理学学士: 武汉大学
Publications
- Poly(3,4-ethylenedioxythiophene)/Functional Gold Nanoparticle films for Improving the Electrode-Neural Interfac, 鲁艺, 2024
- Stretchable, self-rolled, microfluidic electronics enable conformable neural interfaces of brain and vagus neuromodulation, 鲁艺, 2024
- A hybrid strategy-based ultra-narrow stretchable microelectrodes with cell-level resolution, 鲁艺, 2023
- Three-dimensional highly porous hydrogel scaffold for neural circuit dissection and modulation, 鲁艺, 2023
- Engineering Electrodes with Robust Conducting Hydrogel Coating for Neural Recording and Modulation, 鲁艺, 2023
- Conducting polymer-hydrogel interpenetrating networks for improving the electrode-neural interface, 鲁艺, 2023
- A neural circuit from the dorsal CA3 to the dorsomedial hypothalamus mediates balance between risk exploration and defense, 鲁艺, 2022
- Dual targeting nanoparticles for epilepsy therapy, 鲁艺, 2022
- Low-cost and easy-fabrication lightweight drivable electrode array for multiple-regions electrophysiological recording in free-moving mice, 鲁艺, 2022
- Dysfunction of the Hippocampal-Lateral Septal Circuit Impairs Risk Assessment in Epileptic Mice, 鲁艺, 2022
- Low-Cost Paper-Based Conducting Polymer-Hydrogel Flexible Bio-Radar Sensor for Detecting Biological Objects, 鲁艺, 2021
- Flexible and stretchable polymer optical fibers for chronic brain and vagus nerve optogenetic stimulations in free-behaving animals, 鲁艺, 2021
- Printed Stretchable Liquid Metal Electrode Arrays for In Vivo Neural Recording, 鲁艺, 2021
- Bioinspired microcone-array-based living biointerfaces: enhancing the anti-inflammatory effect and neuronal network formation, 鲁艺, 2020
- Self-spreadable Octopus-like Electrode Arrays for Long-term Neural Recordings, 鲁艺, 2020
- Progress in Devices and Materials for Implantable Multielectrode Arrays, 鲁艺, 2020
- Neurotransmitter Sensing in Diagnosis and Research of Neurological Diseases, 鲁艺, 2019
- Ultrafast Self-Healing and Injectable Conductive Hydrogel for Strain and Pressure Sensors, 鲁艺, 2019
- Regulation Mechanism of Hypothalamic Dorsomedial Nucleus on Anxiety, 鲁艺, 2019
- Ultra-soft and highly stretchable hydrogel optical fibers for in vivo optogenetic modulations, 鲁艺, 2018
- Fabrication and modification of implantable optrode arrays for in vivo optogenetic applications, 鲁艺, 2018
- Bioactive interpenetrating polymer networks for improving the electrode/neural-tissue interface, 鲁艺, 2017
- Optogenetic dissection of ictal propagation in the hippocampal-entorhinal cortex structures, 鲁艺, 2016
- In Vitro Cell Culture Light Stimulation System for Optogenetics, 鲁艺, 2015
- Optrode Arrays for Multi-Circuit Dissection, 鲁艺, 2015
- Development of a microfluidic platform with integrated power splitting waveguides for optogenetic neural cell stimulation, 鲁艺, 2015
- Multi-unit recording with iridium oxide modified stereotrodes in Drosophila melanogaster, 鲁艺, 2014
- Poly(3,4-ethylenedioxythiophene)/poly(styrenesulfonate)-poly(v
Awards
- 广东省自然科学奖 (2018): 一等奖
- 深圳市自然科学奖 (2013): 二等奖
