陈杰 博士 讲师 硕导
个人基本情况及学习工作经历:
2011年9月-2015年6月于重庆大学物理学院攻读学士学位
2015年9月-2020年6月于重庆大学物理学院攻读博士学位
2018年10月-2020年4月年在美国佐治亚理工学院联合培养
2020年7月在重庆师范大学物电学院从事教学科研工作
教学情况:
承担《原子物理学》、《大学物理》、《半导体物理》、《网页设计与制作》等多门课程的教学工作
科研方向:
主要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、材料改性以及自驱动传感等方面存在的问题,旨在助力解决我国物联网面临的传感以及能源供给难题。
项目列表:
1、重庆市自然科学基金面上项目,cstc2021jcyj-msxmX0746,主持,在研
2、重庆市教委科学技术研究项目,KJQN202100522,主持,在研
3、重庆师范大学博士启动基金,21XLB006,主持,在研
4、 重庆市博士“直通车”科研项目,CSTB2022BSXM-JCX0091,主持,在研
5、重庆市教委科学技术研究项目,KJQN202200514,主持,在研
6、重庆市教委重点科学技术研究项目,KJZD-K20220050,参与,在研
7、 重庆市博士“直通车”科研项目,CSTB2022BSXM-JSX0006,参与,在研
8、重庆市自然科学基金面上项目,cstc2020jcyj-msxmX0807,参与,在研;
9、重庆市教委科学技术研究项目,KJQN202100546,参与,在研;
10、重庆市教委科学技术研究项目,KJQN202100514,参与,在研;
11、重庆市基础科学与前沿技术研究项目,cstc2017jcyjAX0307,参与,已结题;
获奖及个人荣誉:
1、2020年获重庆师范大学新进教师能力培训 “优秀学员”
2、2021年指导学生获“中国传感器创新创业大赛”省部级奖
3、2021年指导学生获“重庆市大学生物理创新竞赛”省部级奖
4、2022年指导学生获“挑战杯”中国大学生创业计划竞赛省部级奖
5、2022年获重庆师范大学优秀本科生毕业论文指导教师
代表性论文:(按时间倒序)
2023年
[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:29.096)
[2] 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, 2023. ( SCI一区,影响因子:10.269)
[3] 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). ( SCI一区,影响因子:23.655)
[4] J. Sun, L. Zhang, X. Hui, Y. Huang, J. Chen, C. Hu, Hengyu Guo, S. Qi, Z.L. Wang, Self-powered In-Phase Sensing and Regulating Mechanical System Enabled by Nanogenerator and Electrorheological Fluid, Advanced Functional Materials, (2023) 2212248. ( SCI一区,影响因子:19.924)
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, 14 (2022) 1-11. ( 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 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 2023201747416 2023年02月10日
陈杰 吴康杰 一种摩擦电磁杂化发电装置 202223262921.4 2022年12月06日
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 202223062175.4 2022年11月18日
陈杰 任元超 一种可发电的宠物牵引装置 ZL202221356823.4 2022年08年30日
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 2022年06月17日
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。
邮箱或个人网站:
邮箱: Chenjie@cqnu.edu.cn
