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陈 杰

时间:2020-10-10 点击数量:


 

陈杰  博士  副教授  硕导 重庆师范大学青年拔尖人才 重庆市巴渝学者计划青年学者

学习工作经历:

20119-20156 重庆大学物理学院 学士

20159-20206 重庆大学物理学院 博士

201810-20204 美国佐治亚理工学院联合培养

20206至今 重庆师范大学皇冠体彩app下载官网 教学科研岗

教学情况:

主要承担《原子物理学》、《半导体物理》、《大学物理》、《科研制图与实践》、《网页设计与制作》等课程的教学工作

科研方向:

从事环境中微纳能源的采集技术研究,探索纳米发电技术在其基础物理理论模型、材料改性以及自供能传感等方面存在的问题

项目列表

1、国家自然科学青年基金,52302219主持,在研

2、中国博士后科学基金面上资助项目,2023M730419,主持,在研

3、教育部“春晖计划”合作科研项目,HZKY20220206,主持,在研

4、重庆市自然科学基金面上项目,cstc2021jcyj-msxmX0746,主持,在研

5、重庆市教委科学技术研究项目,KJQN202100522,主持,在研

6、重庆师范大学博士启动基金,21XLB006,主持,在研

7、重庆市博士直通车科研项目,CSTB2022BSXM-JCX0091,主持,在研

8、重庆市教委科学技术研究项目,KJQN202200514,主持,在研

获奖及个人荣誉:

12023年获川渝科技学术大会 二等奖

22023年获重庆市大学生物理创新竞赛优秀指导教师

22023年指导学生重庆市大学生物理创新竞赛省部级奖

32022获重庆师范大学优秀本科生毕业论文指导教师

42022年指导学生获挑战杯中国大学生创业计划竞赛省部级奖

52021年指导学生获重庆市大学生物理创新竞赛省部级奖

62021年指导学生获中国传感器创新创业大赛省部级奖

72020年获重庆师范大学新进教师能力培训优秀学员

代表性论文:(按时间倒序)

2024

[1] Y. Wang#, J. Chen#, L. Gong, J. Tang, X. Wang, H. Guo*, X. Zhou* P-doped W2C nanoparticles for hydrogen evolution reaction powered by a wind-driven triboelectric nanogenerator, Nano Energy, 121 (2024) 109242. ( SCI一区,影响因子:17.6)

[2] J. Chen#*, R. Guo#, H. Guo*, Emerging direct current triboelectric nanogenerator for high-entropy mechanical energy harvesting, SCIENCE CHINA Technological Sciences, 67 (2024). ( SCI区,影响因子:4.6)

[3] 谷晓楠, 谭宝芳, 李嘉怡, 陈杰*, 基于摩擦纳米发电机的自供能发光地板系统, 重庆师范大学学报, 41 (2024).

2023

[1] J. Chen, S. Gong, T. Gong, X. Yang, H. Guo* Stackable Direct Current Triboelectric-Electromagnetic Hybrid Nanogenerator for Self-Powered Air Purification and Quality Monitoring, Advanced Energy Materials, 5, 13 (2023) 2203689. ( SCI一区,影响因子:29.698)

[2] J. Chen#, K. Wu#, S. Gong#, J. Wang, K. Wang, H. Guo*, A Magnetic-Multiplier-Enabled Hybrid Generator with Frequency Division Operation and High Energy Utilization Efficiency, Research 6 (2023), 0168. ( SCI一区,影响因子:11.036)

[3] J. Sun#, L. Zhang#, S. Gong, J. Chen*, H. Guo*, MechanoDriven TriboElectrophoresis Enabled HumanDroplet Interaction in Threedimensional Space, Advanced Materials, 35, 44 (2023), 2305578. ( SCI一区,影响因子:29.4)

[4] Z. Hu, X. Hui, S. Li, L. Tang, J. Sun, H. Zeng, J. Chen*, H. Guo*, A self-powered, high-precision and minimum-channel touch panel coupling triboelectrification and uniform resistance film, Nano Energy, 114 (2023), 108676. ( SCI一区,影响因子:17.6)

[5] L. Tang#, X. Hui#, J. Chen*, H. Guo*, F. Wu*, Self-powered, anti-detectable wireless near-field communication strategy based on mechano-driven Maxwell's displacement current, Nano Energy, 2023, 118, 109001. ( SCI一区,影响因子:17.6)

[6] J. Sun#, L. Zhang#, S. Gong, J. Chen*, H. Guo*, Device physics and application prospect of the emerging high-voltage supply technology arising from triboelectric nanogenerator, Nano Energy, 119 (2024), 109010. ( SCI一区,影响因子:17.6)

[7] S. Tang#, W. Chang#, G. Li#, J. Sun, Y. Du, X. Hui, Q. Tang, Z. Hu, J. Li, J. Chen*, W. He*, H. Guo*, High performance wide frequency band triboelectric nanogenerator based on multilayer wave superstructure for harvesting vibration energy, Nano Research, 5, 13 (2023) 6933-6939. ( SCI一区,影响因子:10.269)

[8] X. Hui, Z. Li, L. Tang, J. Sun, X. Hou, J. Chen, Y. Peng*, Z. Wu*, H. Guo*, A Self-Powered, Highly Embedded and Sensitive Tribo-Label-Sensor for the Fast and Stable Label Printer, Nano-Micro Letters, 15, 27 (2023) 1-10. ( SCI一区,影响因子:23.655)

[9] J. Sun, L. Zhang, X. Hui, Y. Huang, J. Chen, C. Hu, H. Guo*, S. Qi*, Z.L. Wang*, Self-powered In-Phase Sensing and Regulating Mechanical System Enabled by Nanogenerator and Electrorheological Fluid, Advanced Functional Materials, 9, 33 (2023) 2212248. ( SCI一区,影响因子:19.924)

[10] J. Sun#, J. Li#, Y Huang, S Qi, J Chen*, C Wu*, H Guo*, Realizing self-powered mechanical transmission control system via triboelectric nanogenerator and electrorheological fluid composed soft starter, Nano Research Energy, 2, 2023, e9120066.

2022年之前

[1] G. Li#, S. Fu#, C. Luo, P. Wang*, Y. Du, Y. Tang, Z. Wang, W. He, W. Liu, H. Guo, J. Chen*, C. Hu*, Constructing high output performance triboelectric nanogenerator via V-shape stack and self-charge excitation, Nano Energy, (2022) 107068. ( SCI一区,影响因子:19.069)

[2] S. Fu, W. He, H. Wu, C. Shan, Y. Du, G. Li, P. Wang, H. Guo, J. Chen*, C. Hu*, High Output Performance and Ultra-Durable DC Output for Triboelectric Nanogenerator Inspired by Primary Cell, Nano-Micro Letters, 11, 4 (2022) 155. ( SCI一区,影响因子:23.655)

[3] J. Chen*#, Y. Ren#, H. Xiang, X. Jiang, X. Yang, H. Guo*, A self-powered human-pet interaction system enabled by triboelectric nanogenerator functionalized pet-leash, Nano Energy, 101 (2022) 107597. ( SCI一区,影响因子:19.069)

[4] J. Sun, L. Zhang, Z. Li, Q. Tang, J. Chen, Y. Huang, C. Hu, H. Guo*, Y. Peng*, Z.L. Wang*, A Mobile and Self‐Powered Micro‐Flow Pump Based on Triboelectricity Driven Electroosmosis, Advanced Materials, 33 (2021) 2102765. ( SCI一区,影响因子:30.086)

[5] J. Li, J. Chen*, H. Guo*, Triboelectric Nanogenerators for Harvesting Wind Energy: Recent Advances and Future Perspectives, Energies, 14 (2021) 6949. ( SCI三区,影响因子:3.252)

[6] H. Guo#, J. Chen#, L. Wang#, A.C. Wang, Y. Li, C. An, J.-H. He, C. Hu, V.K. Hsiao*, Z.L. Wang*, A highly efficient triboelectric negative air ion generator, Nature Sustainability, 4 (2021) 147-153. ( Nature子刊,影响因子:27.157)

[7] C. Wu, P. Jiang, W. Li, H. Guo, J. Wang, J. Chen, M.R. Prausnitz, Z.L. Wang*, Self‐powered iontophoretic transdermal drug delivery system driven and regulated by biomechanical motions, Advanced Functional Materials, 30 (2020) 1907378. ( SCI一区,影响因子:19.924)

[8] X. Pu#, Q. Tang#, W. Chen, Z. Huang, G. Liu, Q. Zeng, J. Chen, H. Guo*, L. Xin*, C. Hu*, Flexible triboelectric 3D touch pad with unit subdivision structure for effective XY positioning and pressure sensing, Nano Energy, 76 (2020) 105047. ( SCI一区,影响因子:19.069)

[9] W. He#, W. Liu#, J. Chen, Z. Wang, Y. Liu, X. Pu, H. Yang, Q. Tang, H. Yang, H. Guo*, C. Hu*, Boosting output performance of sliding mode triboelectric nanogenerator by charge space-accumulation effect, Nature communications, 11 (2020) 1-8. ( Nature子刊,影响因子:17.694)

[10] J. Chen, H. Guo*, C. Hu*, Z.L. Wang*, Robust triboelectric nanogenerator achieved by centrifugal force induced automatic working mode transition, Advanced Energy Materials, 10 (2020) 2000886. ( SCI一区,影响因子:29.698)

[11] W. Liu, Z. Wang, G. Wang, G. Liu, J. Chen, X. Pu, Y. Xi, X. Wang, H. Guo*, C. Hu*, Integrated charge excitation triboelectric nanogenerator, Nature communications, 10 (2019) 1-9. ( Nature子刊,影响因子:17.694)

[12] J. Chen#, H. Guo#, Z. Wu#, G. Xu, Y. Zi, C. Hu*, Z.L. Wang*, Actuation and sensor integrated self-powered cantilever system based on TENG technology, Nano Energy, 64 (2019) 103920. ( SCI一区,影响因子:19.069)

[13] Q. Tang#, M.-H. Yeh#, G. Liu, S. Li, J. Chen, Y. Bai, L. Feng, M. Lai, K.-C. Ho, H. Guo*, C. Hu*, Whirligig-inspired triboelectric nanogenerator with ultrahigh specific output as reliable portable instant power supply for personal health monitoring devices, Nano Energy, 47 (2018) 74-80. ( SCI一区,影响因子:19.069)

[14] S. Qi#, H. Guo#, J. Chen, J. Fu, C. Hu*, M. Yu*, Z.L. Wang*, Magnetorheological elastomers enabled high-sensitive self-powered tribo-sensor for magnetic field detection, Nanoscale, 10 (2018) 4745-4752. ( SCI一区,影响因子:8.307)

[15] X. Pu#, H. Guo#, Q. Tang#, J. Chen, L. Feng, G. Liu, X. Wang, Y. Xi, C. Hu*, Z.L. Wang*, Rotation sensing and gesture control of a robot joint via triboelectric quantization sensor, Nano Energy, 54 (2018) 453-460. ( SCI一区,影响因子:19.069)

[16] G. Liu, J. Chen, Q. Tang, L. Feng, H. Yang, J. Li, Y. Xi, X. Wang*, C. Hu*, Wireless electric energy transmission through various isolated solid media based on triboelectric nanogenerator, Advanced Energy Materials, 8 (2018) 1703086. ( SCI一区,影响因子:29.698)

[17] G. Liu, J. Chen, H. Guo, M. Lai, X. Pu, X. Wang, C. Hu*, Triboelectric nanogenerator based on magnetically induced retractable spring steel tapes for efficient energy harvesting of large amplitude motion, Nano Research, 11 (2018) 633-641. ( SCI一区,影响因子:10.269)

[18] H. Guo#, X. Pu#, J. Chen#, Y. Meng, M.-H. Yeh, G. Liu, Q. Tang, B. Chen, D. Liu, S. Qi, C. Wu, C. Hu*, J. Wang*, Z.L. Wang*. A highly sensitive, self-powered triboelectric auditory sensor for social robotics and hearing aids, Science Robotics, 3 (2018) eaat2516. ( Science 子刊,影响因子:27.541)

[19] L. Feng#, G. Liu#, H. Guo, Q. Tang, X. Pu, J. Chen, X. Wang, Y. Xi, C. Hu*, Hybridized nanogenerator based on honeycomb-like three electrodes for efficient ocean wave energy harvesting, Nano Energy, 47 (2018) 217-223. ( SCI一区,影响因子:19.069)

[20] J. Chen#, X. Pu#, H. Guo*, Q. Tang, L. Feng, X. Wang*, C. Hu*, A self-powered 2D barcode recognition system based on sliding mode triboelectric nanogenerator for personal identification, Nano Energy, 43 (2018) 253-258. ( SCI一区,影响因子:19.069)

[21] J. Chen, H. Guo*, X. Pu, X. Wang, Y. Xi, C. Hu*, Traditional weaving craft for one-piece self-charging power textile for wearable electronics, Nano Energy, 50 (2018) 536-543. ( SCI一区,影响因子:19.069)

[22] C. Zhang#, C. Wang#, D. Zhang*, S. Dai, Y. Xi, W. Xu, J. Chen, N. Bai, Y. Yang*, Based on the stable tunnel structure of C@ K2Ti6O13 hybrid compositions for supercapacitor, Electrochimica Acta, 252 (2017) 498-506. ( SCI一区,影响因子:7.336)

[23] X. Xia, J. Chen, G. Liu, M.S. Javed, X. Wang, C. Hu*, Aligning graphene sheets in PDMS for improving output performance of triboelectric nanogenerator, Carbon, 111 (2017) 569-576. ( SCI一区,影响因子:11.307)

[24] X. Xia, J. Chen, H. Guo, G. Liu, D. Wei, Y. Xi, X. Wang*, C. Hu, Embedding variable micro-capacitors in polydimethylsiloxane for enhancing output power of triboelectric nanogenerator, Nano Research, 10 (2017) 320-330. ( SCI一区,影响因子:10.269)

[25] X. Pu#, H. Guo#, J. Chen, X. Wang, Y. Xi, C. Hu*, Z.L. Wang*, Eye motion triggered self-powered mechnosensational communication system using triboelectric nanogenerator, Science Advances, 3 (2017) e1700694. ( SCI一区,影响因子:14.957)

[26] H. Guo#, M.-H. Yeh#, Y. Zi#, Z. Wen, J. Chen, G. Liu, C. Hu*, Z.L. Wang*, Ultralight cut-paper-based self-charging power unit for self-powered portable electronic and medical systems, ACS Nano, 11 (2017) 4475-4482. ( SCI一区,影响因子:18.027)

[27] J. Chen, H. Guo*, G. Liu, X. Wang, Y. Xi, M.S. Javed, C. Hu*, A fully-packaged and robust hybridized generator for harvesting vertical rotation energy in broad frequency band and building up self-powered wireless systems, Nano Energy, 33 (2017) 508-514. ( SCI一区,影响因子:19.069)

[28] M.S. Javed, J. Chen, L. Chen, Y. Xi, C. Zhang, B. Wan, C. Hu*, Flexible full-solid state supercapacitors based on zinc sulfide spheres growing on carbon textile with superior charge storage, Journal of Materials Chemistry A, 4 (2016) 667-674. ( SCI一区,影响因子:14.511)

[29] J. Chen, H. Guo, J. Zheng, Y. Huang, G. Liu, C. Hu*, Z.L. Wang*, Self-powered triboelectric micro liquid/gas flow sensor for microfluidics, ACS Nano, 10 (2016) 8104-8112. ( SCI一区,影响因子:18.027)

[30] J. Chen, H. Guo*, X. He, G. Liu, Y. Xi, H. Shi, C. Hu*, Enhancing performance of triboelectric nanogenerator by filling high dielectric nanoparticles into sponge PDMS film, ACS Applied Materials & Interfaces, 8 (2016) 736-744. ( SCI一区,影响因子:10.383)

[31] H. Guo, Q. Leng, X. He, M. Wang, J. Chen, C. Hu*, Y. Xi*, A triboelectric generator based on checker‐like interdigital electrodes with a sandwiched PET thin film for harvesting sliding energy in all directions, Advanced Energy Materials, 5 (2015) 1400790. ( SCI一区,影响因子:29.698)

[32] H. Guo, J. Chen, Q. Leng, Y. Xi, M. Wang, X. He, C. Hu*, Spiral-interdigital-electrode-based multifunctional device: Dual-functional triboelectric generator and dual-functional self-powered sensor, Nano Energy, 12 (2015) 626-635. ( SCI一区,影响因子:19.069)

[33] H. Guo#, X. He#, J. Zhong, Q. Zhong, Q. Leng, C. Hu*, J. Chen, L. Tian, Y. Xi, J. Zhou*, A nanogenerator for harvesting airflow energy and light energy, Journal of Materials Chemistry A, 2 (2014) 2079-2087. ( SCI一区,影响因子:14.511)

[34] H. Guo, X. He, C. Hu*, Y. Tian, Y. Xi*, J. Chen, L. Tian, Effect of particle size in aggregates of ZnO-aggregate-based dye-sensitized solar cells, Electrochimica Acta, 120 (2014) 23-29. ( SCI一区,影响因子:7.336)

[35] H. Guo, J. Chen, L. Tian, Q. Leng, Y. Xi*, C. Hu*, Airflow-induced triboelectric nanogenerator as a self-powered sensor for detecting humidity and airflow rate, ACS Applied Materials & Interfaces, 6 (2014) 17184-17189. ( SCI一区,影响因子:10.383)

专利:

陈杰 李霖 一种基于摩擦纳米发电机的流体能收集装置 ZL 2023 2 0347732.2  202391

陈杰 郭瑞龙 一种直流摩擦纳米发电机 ZL 2023 2 0254714.X 20230718

陈杰 和亚龙 李嘉怡 杨晓红 一种基于摩擦纳米发电机的风速传感器 ZL 2023 2 0174741.6  20230407

陈杰 吴康杰 一种摩擦电磁杂化发电装置 ZL 2022 2 3262921.4  20230310

陈杰 龚庭韦 杨晓红 一种基于杂化发电机的自供能PM2.5净化及监测装置 ZL 2022 2 3062175.4  20230509

陈杰 任元超 一种可发电的宠物牵引装置 ZL2022 2 1356823.4  20220830

郭恒宇 唐乾 陈杰 蒲贤洁 萧桂森 胡陈果 一种零电耗离子发生器 ZL202010612346.5  20220617

教师赠语:

课题组长期招纳研究生与本科生,欢迎有科研志向的同学加入(Chenjie@cqnu.edu.cn)



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