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王景祥 |
研究生 |
博士 |
硕士导师 |
性别 |
男 |
职称 |
讲师 |
职务 |
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办公地址 |
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出生年月 |
1990年3月 |
办公电话 |
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专业 |
机械设计制造及其自动化 |
E-mail |
004123@jlau.edu.cn |
个人简介
王景祥,1990年生,2023年获得吉林大学农业工程专业博士学位,讲师。主要从事仿生功能表面、仿生机械量传感、柔性电子等领域的研究,在Advanced Functional Materials、Nano Energy、ACS nano、Chemical Engineering Journal、Computers and Electronics in Agriculture等国际SCI期刊发表论文9篇,以第一/通讯作者在Advanced Functional Materials (影响因子18.5,一区TOP)、Chemical Engineering Journal(影响因子15.1,一区TOP)、Computers and Electronics in Agriculture (影响因子8.7,一区TOP)、ACS Applied Materials & Interfaces (影响因子10.838)上发表论文4篇,授权及合作公开发明专利共 9项。主持吉林省教育厅项目一项,国际仿生工程学会 (ISBE) 会员,获得吉林大学优秀博士学位论文荣誉称号,参与荣获吉林省科学技术进步二等奖。
研究方向:
1.柔性电子、机械量传感器;
2.植物电子皮肤;
3.仿生功能表面。
招生专业:
自动化、机械、农业机械、材料、电子计算机等专业研究生。
PUBLICATIONS:
1. Wang, J.; Liu, B.; Li, D.; Yuan, J.; Huang, D.; Zhang, C.; Song, W.; Wang, C.; Wang, J.; Liu, L.*; Han, Z.*; Ren, L. Fiber-shaped, stretchable strain sensors with high linearity by one-step injection molding for structural health monitoring. Advanced Functional Materials, 2025. (中科院一区top, IF: 18.5) [link]
2. Liu, L; Cai, Y; Jiang, X; Wang, J*; Wang, C*; Duan, J ; A versatile surface micro structure design strategy for porous-based pressure sensors to enhance electromechanical performance, Chem. Eng. J., 2024, (中科院一区top, IF: 15.1) [link]
3. Zhao, J; Wang, X*; Wang, J*; Han, Z; A high-precision strain seeding spacing monitoring system based on a combined bionic strain sensor and strain peak recognition algorithm, Computers and Electronics in Agriculture, 2023, (中科院一区top, IF: 8.3) [link]
4. Wang, J; Liu, L; Yang, C; Zhang, C; Li, B; Meng, X; Ma, G; Wang, D; Zhang, J; Niu, S; Zhao, J*; Han, Z*; Yao, Z*; Ren, L; Ultrasensitive, Highly Stable, and Flexible Strain Sensor Inspired by Nature, ACS Applied Materials & Interfaces, 2022, (中科院二区, IF:10.838) [link]
5. Wu, H.; Wang, C.*; Xu, X.; Mu, Z.; Wang, J.; Niu, S.; Liu, X.; Feng, X.; Liu, L.*; Duan, J.; Han, Z. A biomimetic metal diaphragm vibration sensor with high-frequency response based on a rigid-flexible hybrid design strategy. 2025, (Submitted)
6. Ma, G; Wang, D; Wang, J; Li, J; Wang, Z; Li, B; Mu, Z; Niu, S*; Zhang, J; Ba, K; Yu, B; Liu, Q; Han, Z*; Ren, L; A durable triboelectric nanogenerator with a coaxial counter-rotating design for efficient harvesting of random mechanical energy, Nano Energy, 2023, (IF:19.069) [link]
7. Cai, Y; Liu, L*; Meng, M; ;Wang, J, Zhang, C; Li, J; Lua, Z; Duan, J. A broad range and piezoresistive flexible pressure sensor based on carbon nanotube network dip-coated porous elastomer sponge. RSC Advances, 2022, (IF:4.036) [link]
8. Ma, G; Li, B; Niu, S*; Zhang, J; Wang, D; Wang, Z; Zhou, L; Liu, Q; Liu, L; Wang, J; Han, Z*; Ren, L. A bioinspired triboelectric nanogenerator for all state energy harvester and self-powered rotating monitor. Nano Energy, 2022, (IF:19.069) [link]
9. Wang, D; Zhang, J; Ma, G; Fang, Y; Liu, L; Wang, J; Sun, T; Zhang, C; Meng, X; Wang, K; Han, Z*; Niu, S*; Luquan Ren. A selective-response bioinspired strain sensor using viscoelastic material as middle layer. ACS Nano, 2021, (IF:18.027) [link]
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