2025年获浙江大学海洋技术与工程专业博士学位，现为浙江师范大学工学院讲师。

主要研究兴趣：微小型俘能结构，非线性动力学，非线性减振/隔振，风力发电机振动控制，包括主动控制和被动控制

当前发表论文20余篇SCI，其中一作或通讯10余篇

目前担任多个期刊审稿人，包括Mechanical Systems and Signal Processing，International Journal of Mechanical Sciences，Engineering Structures，Ocean Engineering, Nonlinear Dynamics，International Journal of Non-Linear Mechanics，Smart Materials and Structures，Structural Concrete，International Journal of Energy Research，Engineering Research Express.

近5年论文成果 (一作或通讯作者)：

海上风力发电机振动控制

1. Dynamics of bistable nonlinear energy sinks and their application in monopile offshore wind turbines. International Journal of Mechanics and Materials in Design., 2026;  （一作, JCR Q1, IF=3.6）

2. A new natural-frequency-equivalent-based scaled model test method for monopile wind turbines and its application on experimental verification of damping performance of absorbers. Structures., 2025；（一作, 中科院二区, JCR Q1, IF=4.3）

3. Vibration control and stroke evaluation of bi-directional bistable nonlinear energy sinks applied in monopile offshore wind turbines during emergency shutdown. Applied Ocean Research., 2024；（一作, 中科院二区, JCR Q1, IF=4.4）

4. Vibration reduction and energy harvesting of monopile offshore wind turbines under extreme wind-wave loadings using a novel bidirectional absorber-harvester. Structures., 2024；（一作, 中科院二区, JCR Q1, IF=4.3）

5. The influence of tuned mass dampers on vibration control of monopile offshore wind turbines under wind-wave loadings. Ocean Engineering., 2023；（一作, 中科院二区, JCR Q1, TOP, IF=5.5）

基于介电弹性体的能量收集：振动和旋转

1. A hybrid piezo-dielectric energy harvester with internal impact effect in vortex-induced vibrations. International Journal of Mechanical Sciences., 2025；（一作, 中科院一区, JCR Q1, TOP, IF=9.4）

2. Vibration mitigation and energy harvesting of vibro-impact dielectric elastomer oscillators. International Journal of Mechanical Sciences., 2024；（通讯作者, 中科院一区, JCR Q1, TOP, IF=9.4）

3. Vibration reduction and energy harvesting of monopile offshore wind turbines under extreme wind-wave loadings using a novel bidirectional absorber-harvester. Structures., 2024；（一作, 中科院二区, JCR Q1, IF=4.3）

4. Numerical investigation on a bistable vibro-impact dielectric elastomer generator under low-frequency excitations. Journal of Vibration Engineering & Technologies., 2024；（一作, 中科院四区, JCR Q2， IF=2.4）

5. An asymmetric bistable vibro-impact DEG for enhanced ultra-low-frequency vibration energy harvesting. International Journal of Mechanical Sciences., 2023；（一作, 中科院一区, JCR Q1, TOP, IF=9.4）

6. Dynamics and energy harvesting performance of a nonlinear arc-cylinder type dielectric elastomer oscillator under unidirectional harmonic excitations. International Journal of Mechanical Sciences., 2023；（一作, 中科院一区, JCR Q1, TOP, IF=9.4）

7. Numerical investigation on a bistable vibro-impact dielectric elastomer generator mounted on a vibrating structure with ultra-low natural frequency. International Journal of Mechanics and Materials in Design., 2023；（一作, 中科院三区, JCR Q1, IF=3.6）

8. Rotational energy harvesting from a novel arc-cylinder type vibro-impact dielectric elastomer generator. International Journal of Mechanics and Materials in Design., 2022；（一作, 中科院二区, JCR Q1, IF=3.6）

9. Harvest rotational energy from a novel dielectric elastomer generator with crank-connecting rod mechanisms. Smart Materials and Structures., 2020；（一作, 中科院二区, JCR Q1, IF=3.8）

已授权发明专利:

1. 基于介电弹性体的水下液压系统振动能量采集装置及方法 CN 113644801 B (授权时间2022.07.12，第二作者)

2. 一种接触式介电弹性体发电机结构 CN 108923681 B（授权时间2024.05.03，第一作者）

其他兴趣

MBTI荣格八维、九型人格、象棋、五子棋、跳绳、慢跑