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基本情况

2006-2015年期间分别在北京航空航天大学高等工程学院（现沈元荣誉学院）与太阳集团2138登录入口（高博班）完成本科和博士学业，2016年初留校，现任副研究员，博士生导师，长期从事功能材料、器件集成与应用研究。

目前作为北航负责人获批国家自然科学基金联合项目，承担国家自然科学基金面上项目，北京市自然科学基金面上项目，浙江省重点研发计划项目，先后主持国家自然科学基金青年项目和北京市科技新星计划交叉学科合作项目等。作为核心技术人员先后参与科技部国家重点研发计划项目（项目联系人），装发共用技术项目、国家自然科学基金联合项目/重点项目。

迄今在Advanced Energy Materials、Nano Energy、Npj Flexible Electronics、Small、Applied Energy等杂志发表一作/通讯SCI文章60余篇，授权发明专利10余项。

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主讲课程

研究生课程：《科学写作与报告》、《薄膜材料工程学》

研究方向

[1] 热电膜材料与微型器件集成应用

[2] 超快激光与材料作用原理及微纳制造

[3] 芯片热管理材料与技术

[4] 触觉传感器与智能感知技术

教学科研成果

发明专利：

（1）基于脉冲激光直写技术的高密度热电厚膜器件及制法 ZL202110505375.3

（2）基于脉冲激光烧蚀的高精度快速薄膜热电器件及其制备方法 ZL202010441178.5

（3）一种薄膜材料样品的高通量制备装置 ZL202310341059.6

（4）原位集成微型热电器件的薄膜电阻式温度传感器及其制法 ZL202310364872.5

（5）一种用于热电器件的综合性能原位测试装置和方法 ZL202510061373.8

代表性论文：

[1] Shucheng Bao, Wei Zhu^*, et al., Application-orientated design of micro thermoelectric coolers using a Machine learning-driven reverse framework. Energy Conversion and Management. 353 (2026) 121203.

[2] Yue Huang, Wei Zhu^*, et al., Bridging sensation and actuation: From fundamental architectures to adaptive systems. Chemical Engineering Journal. 531 (2026) 173685.

[3] Yue Huang, Wei Zhu^*, et al., Programmable high-sensitivity iontronic pressure sensors support broad human-interactive perception and identification. Npj Flexible Electronics. 9 (2025) 41.

[4] Shaoxiong Hu, Rui Wang, Wei Zhu^*, et al., Sub-millimeter scale 3D integration strategy enables ultrahigh-density and ultralow-crosstalk flexible tactile sensor array for robotic e-skin application. Chemical Engineering Journal. 502 (2024) 157950.

[5] Siming Guo, Wei Zhu^*, et al., Direct melt-calendaring of highly textured (Bi,Sb)₂Te₃ thick films: Superior thermoelectric and mechanical performance via strain engineering. Small Methods. 8 (2024) 2400589.

[6] Chaojie Ren, Wei Zhu^*, et al., High-resolution dynamic thermal programming platform based on micro thermoelectric device assisted by laser integrated manufacturing. Nano Energy. 127 (2024) 109794.

[7] Qingqing Zhang, Wei Zhu^*, et al., Realizing the accurate measurements of thermal conductivity over a wide range by scanning thermal microscopy combined with quantitative prediction of thermal contact resistance. Small. 19 (2023) 2300968.

[8] Zhanpeng Guo, Yuedong Yu, Wei Zhu^*, et al., Kirigami-based stretchable, deformable, ultralight thin-film thermoelectric generator for BodyNET application. Advanced Energy Materials. 12 (2022) 2102993.

[9] Yuedong Yu, Zhanpeng Guo, Wei Zhu^*, et al., High-integration and high-performance micro thermoelectric generator by femtosecond laser direct writing for self-powered IoT devices. Nano Energy. 93 (2022) 106818.

[10] Yaling Wang, Wei Zhu^*, et al., Self-powered wearable pressure sensing system for continuous healthcare monitoring enabled by flexible thin-film thermoelectric generator. Nano Energy. 73 (2020) 104773.