曾启煊

发布者:物理学院发布时间:2024-08-23浏览次数:201


姓名:曾启煊        

职称:讲师

办公室:博学楼317-1

电话:

电子邮件:zengqx@gzu.edu.cn

研究领域:摩擦纳米发电机、自供电智能传感系统等

招生方向:物理学

【个人简介】

曾启煊

理学博士,讲师。主要从事基于摩擦纳米发电技术的环境能量收集及自供电传感系统,迄今为止以第一作者/共同第一作者/通讯作者身份在Advanced Materials, Energy & Environmental Science, Small, Nano Energy等国际高水平期刊上发表研究论文9篇,发表论文总被引用次数超过1200余次,个人H-index 15,另已授权国家发明专利3项,受邀为Nano EnergyApplied EnergyEnergy Storage Materials等期刊审稿。

学术经历

2012.09-2016.06 中国海洋大学,海洋技术学专业,学士;

2017.09-2023.06 重庆大学,物理学专业,博士(硕博连读);

2024-至今,贵州大学物理学院;

学术成就

代表性论著

1. Zeng, Q., Chen, A., Zhang, X., Luo, Y., Tan, L., & Wang, X.* (2023). A Dual‐functional triboelectric nanogenerator based on the comprehensive integration and synergetic utilization of triboelectrification, electrostatic induction and electrostatic discharge to achieve AC/DC convertible outputs. Advanced Materials, 2208139. (一区TOP)

2. Zeng, Q., Wu, Y., Tang, Q., Liu, W., Wu, J., Zhang, Y., ... & Wang, X.* (2020). A high-efficient breeze energy harvester utilizing a full-packaged triboelectric nanogenerator based on flow-induced vibration. Nano Energy, 70, 104524. (一区TOP

3. Zeng, Q., Lou, Y., Zhang, X., Tan, L., ...& Wang, X.* (2023). A bistable triboelectric nanogenerator for low-grade thermal energy harvesting and solar thermal energy conversion. Small, 2023:2301952. (二区TOP)

4. Chen, A., Zeng, Q., Tan, L., .& Wang, X.* (2023). A novel hybrid triboelectric nanogenerator based on the mutual boosting effect of electrostatic induction and electrostatic breakdown. Energy & Environmental Science. (共同一作, 一区TOP)

5. Luo, Y., Sun, J., Zeng, Q.*, ...& Wang, X.* (2023). Programmable tactile feedback system for blindness assistance based on triboelectric nanogenerator and self-excited electrostatic actuator. Nano Energy, 108425. (通讯作者, 一区TOP)

6. Wu, Y., Zeng, Q., Tang, Q., Liu, W., Liu, G., Zhang, Y., ... & Wang, X.* (2020). A teeterboard-like hybrid nanogenerator for efficient harvesting of low-frequency ocean wave energy. Nano Energy, 67, 104205. (共同一作,一区TOP

7. Yuan, S., Zeng, Q., Tan, D., Luo, Y., Zhang, X., Guo, H., ... Wang, X.*& Wang, Z. L.* (2022). Scavenging breeze wind energy (1–8.1 m s−1) by minimalist triboelectric nanogenerator based on the wake galloping phenomenon. Nano Energy, 100, 107465. (共同一作,一区TOP

8. Wu, J., Liu, W., Zeng, Q., Zhang, Y., Guo, H., Zhang, X., ... Wang, X.*& Wang, Z. L.* (2022). A mutual boosting self-excitation hybrid cell for harvesting high entropy energy at 32% efficiency. Small, 2205704. (共同一作,二区TOP

9. Tan, L., Zeng, Q., Xu F, Zhao, Q., Chen, A., Wang, T., Tao, X., Yang, Y., Wang, X.* Controllable manipulation of large-volume droplet on non-slippery surfaces based on triboelectric contactless charge injection. Advanced Materials, 2313878. (共同一作,一区TOP

1. Zeng, Q., Chen, A., Zhang, X.,   Luo, Y., Tan, L., & Wang, X.* (2023). A Dual‐functional triboelectric   nanogenerator based on the comprehensive integration and synergetic   utilization of triboelectrification, electrostatic induction and   electrostatic discharge to achieve AC/DC convertible outputs. Advanced Materials, 2208139. (一区TOP)

2.   Zeng, Q., Wu, Y., Tang, Q.,   Liu, W., Wu, J., Zhang, Y., ... & Wang, X.* (2020). A high-efficient   breeze energy harvester utilizing a full-packaged triboelectric nanogenerator   based on flow-induced vibration. Nano   Energy, 70, 104524. (一区TOP

3. Zeng, Q., Lou, Y., Zhang, X.,   Tan, L., ...& Wang, X.* (2023). A bistable triboelectric nanogenerator   for low-grade thermal energy harvesting and solar thermal energy conversion. Small, 2023:2301952. (二区TOP)

4. Chen, A., Zeng, Q., Tan, L., .& Wang, X.* (2023).A novel hybrid triboelectric nanogenerator   based on the mutual boosting effect of electrostatic induction and   electrostatic breakdown. Energy & Environmental Science. (共同一作,   一区TOP)

5. Luo, Y., Sun, J., Zeng,   Q.*, ...& Wang, X.* (2023). Programmable tactile feedback system   for blindness assistance based on triboelectric nanogenerator and   self-excited electrostatic actuator. Nano   Energy, 108425. (通讯作者, 一区TOP)

6. Wu, Y., Zeng,   Q., Tang, Q., Liu, W., Liu, G., Zhang, Y., ... & Wang, X.*   (2020). A teeterboard-like hybrid nanogenerator for efficient harvesting of   low-frequency ocean wave energy. Nano   Energy, 67, 104205. (共同一作,一区TOP

7.   Yuan,   S., Zeng, Q., Tan, D., Luo, Y., Zhang, X., Guo, H., ... Wang,   X.*& Wang, Z. L.* (2022). Scavenging breeze wind energy (1–8.1 m s−1)   by minimalist triboelectric nanogenerator based on the wake galloping   phenomenon. Nano Energy, 100,   107465. (共同一作,一区TOP

8. Wu, J., Liu, W.,Zeng,   Q., Zhang, Y., Guo, H., Zhang, X., ... Wang, X.*& Wang, Z. L.*   (2022). A mutual boosting self-excitation hybrid cell for harvesting high   entropy energy at 32% efficiency. Small,   2205704. (共同一作,二区TOP

9. Tan, L., Zeng, Q., Xu F, Zhao, Q.,   Chen, A., Wang, T., Tao, X., Yang, Y., Wang, X.* Controllable manipulation of   large-volume droplet on non-slippery surfaces based on triboelectric   contactless charge injection. Advanced   Materials, 2313878. (共同一作,一区TOP


版本日期:2024.8