教育背景
1994.3-1997.3,东北大学,机械学博士
1987.9-1990.6,东北大学,机械学硕士
1984.9-1987.6,东北大学,机械学学士
教学工作
1990~1997年于东北大学机械原理与机械零件教研室任助教、讲师。1999年6月加盟厦门大学机电工程系任副教授,2001年任教授。曾任厦门大学机电工程系副主任、主任,曾任厦门大学航空航天学院副院长。2004.1~2005.12年受Berkeley Scholarship Program 资助,前往加州大学伯克利分校机械工程系、BSAC从事MEMS/NEMS访问研究。
主要担任课程:《机械原理》(本科生)、《微流体技术及其应用》(研究生)
研究领域
智能柔性/薄膜传感器、MEMS传感、柔性器件、器官芯片、极端传感、微纳增材制造、先进3D打印技术、柔性电子(传感)、智能机器人
* 欢迎具有机械、机电、仪器、电子、物理、自动化等专业背景的同学推免和报考
** 欢迎本科生同学加入团队,开展前沿或应用探索,或参加大创比赛等。
荣誉奖励
[1] 福建省高层次人才B类
[2]2025年 中国大学生机械工程创新创意大赛:“明石杯”微纳传感技术与智能应用 二等奖 指导老师
学术兼职
[1] “十四五”国家重点研发计划“智能传感器”重点专项总体专家组成员;
[2]中国微米纳米技术学会常务理事、生物微机电分会理事长;
[3]全国微机电标准化委员会委员;
[4]IEEE NEMS组委会主席、指导委员会委员、程序委员会委员;
[5]IEEE Sensor程序委员会委员;
[6]Microsystems & NanoEngineering 编委;
[7]《振动、测试、诊断》编委会委员;
[8]中国电子学会电子机械委员会委员。
科研项目�
1. 国家重点研发计划(十四五)项目,集成激励-传感装置的生物反应器开发2022-12-31 至2026-11-30
2. 国家自然科学基金委项目,面向心肌芯片的柔性传感/激励—3D支架共体制造基础研究)2021-01-01至2024-12-01
3. 国家自然科学基金委项目,纳米纤维自支撑微纳增材制造原理研究 2020-01-01至2023-12-01
4. 企业合作项目 航空发动机XXXX多参数融合与故障预测方法研究2020-11-01至2022-09-30
5. 装备项目,高温XXXXXXX响应测量技术研究 2022 年-2025 年
6. 深圳市科技计划项目,基于压电驱动按需滴化喷射点胶形成机理与精密点胶阀研究(JCYJ20170818141912229)2018/03-2021/03
发明专利
[1] 孙道恒,薛命铖(学),章王子涵(学),金航(学),吴汇权(学),许丰(学),陈松月,何功汉一种悬空、柔性微电极阵列器件及制造方法和应用 2025-10-28 XDZL202409131
[2] 孙道恒,金航(学),李苑绮(学),许丰(学),杨建辉(学),陈松月,何功汉一种自变形的悬浮心肌组织柔性力传感器及其制备方法 2025-12-12 XDZL202408038
[3] 孙道恒,陈沁楠,魏宏成(学),刘贤龙(学),海振银,何功汉,徐攀华(学)一种等离子体薄膜风速敏感元件及其制备方法和压气机 2024-09-06 XDZL202206005
[4] 孙道恒,张昆鹏(学),何功汉,陈沁楠 一种嵌入3D电磁超材料的结构功能共体透波罩及实现方法2024-04-02XDZL202103096
[5] 孙道恒,党田雨(学),欧露(学),陈松月,何功汉一种集成磁感应式心肌组织收缩力传感的心肌芯片2024-06-14 XDZL202402027
[6] 孙道恒,章王子涵(学),金航(学),薛命铖(学),吴汇权(学),许丰(学),陈松月,何功汉 一种心肌细胞信号检测平台 2024-10-09 XDZL202409206
[7] 孙道恒,金航(学),许丰(学),凌爽(学),陈松月,丁政茂,何功汉 一种水凝胶修饰的微电极阵列器件及其制备方法2025-03-07 XDZL202503018
[8]孙道恒,江阿灿(学),许丰(学),张长瑞(学),方灏航(学),陈松月 嵌入纳米纤维与柔性电路板的心肌芯片及其一体成型方法2025-03-31XDZL202503120
近期发表文章
[1] Lida Xu, Xiong Zhou, Lantian Tang, Yusen Wang, Fuxin Zhao, Yanzhang Fu, Yingjun Zeng, Guochun Chen, Chao Wu, Lingyun Wang, Qingtao Yang*, Daoheng Sun*, Qinnan Chen*. 3D printing of thick film NTC thermistor from preceramic polymer composites for ultra-high temperature measurement[J]. Journal of Materials Science & Technology, 2025, 211: 1-10. (SCI一区)
[2] Lida Xu, Fuxin Zhao, Xiong Zhou, Yusen Wang, Tingting Shen, Jun Liu, Haidong Wang, Guo Yi, Xingguang Zhou, Chao Wu, Yang Zhao*, Daoheng Sun*, Qinnan Chen*. High-temperature thin-film strain sensors with low temperature coefficient of resistance and high sensitivity via direct ink writing[J]. Nanotechnology and Precision Engineering, 2025, 8(1). (SCI三区,封面文章)
[3]. F. Xu, H. Jin, Z. Zhou, A. Jiang, L. Liu, H. Fang, Q. Gao, Y. Su, Z. Ding, Q. Chen, S. Chen*, D. Sun*, Surface Tension Confined Digital Light Processing for Hydrogel Printing with High Availability, Journal of Manufacturing Processes, 2025, 136, 370-379.
[4]. J. Yang, F. Xu, H. Jin, Z. Zhou, H. Wu, W. Zhang, M. Xue, B. Qiu, Q. Gao, B. Lin, S. Chen*, D. Sun*, A 3D Hydrogel Scaffold with Adjustable Interlayer Spacing for the Formation of Compact Myocardial Tissue, Journal of Applied Polymer Science, 2025, 142(1), e56311.
[5]. Y. Jiang, M. Xue, L. Ou, B. Lin, W. Kong, S. Chen*, and D. Sun*, Rapid Analysis Method for Cardiac Tissue Contraction Synchrony in Wide View Field Based on Variations in Optical Field Brightness, Tissue Engineering and Regenerative Medicine, 2025, 22, 211-224.
[6]. Mingcheng Xue, Wangzihan Zhang, Hang Jin, Zhengmao Ding*, Songyue Chen*, Daoheng Sun*. Composite additive manufacturing for suspended microelectrode arrays: advancing oriented myocardial tissue culturing and electrophysiological sensing[J]. Biosensors and Bioelectronics, 2025: 117686.(一区, TOP, IF: 10.5)(成熟培养、跟随跳动、电生理阵列监测的心肌器官芯片传感器)
[7]. Y. You, F. Xu, L. Liu, S. Chen, Z. Ding*, D. Sun*, Construction of thick myocardial tissue through layered seeding in multi-layer nanofiber scaffolds, Polymers, 2024, 16(18), 2664
[8] A. Jiang, F. Xu, H. Fang, C. Zhang, S. Chen*, D. Sun*, Direct ink writing of liquid metal on hydrogel through oxides introduction, Langmuir, 2024, 40, 19830-19838.
[9] Chenhe Shao, Fuxin Zhao, Peng Zhang, Ye Qiao, Yanzhang Fu, Yuelong Li, Yingjun Zeng, Lida Xu, Lanlan Li, Gonghan He, Songyue Chen*, Daoheng Sun*, Qinnan Chen*. Composite Coating Based Heat Flux Sensor for In-situ Heat Flux Monitoring of Hot-end Components[J]. IEEE Sensors Journal, 2024.(SCI二区)
[10] Jun Liu, Lida Xu*, Xiong Zhou, Fuxin Zhao, Yusen Wang, Siqi Wang, Wenlong Lv, Daoheng Sun*, Qinnan Chen*. 3D-Printed Conformal Thin Film Thermocouple Arrays for Distributed High-Temperature Measurements[J]. Coatings, 2024, 14(8): 967.(SCI三区)
[11] Yusen Wang#, Lida Xu#*, Xiong Zhou, Fuxin Zhao, Jun Liu, Siqi Wang, Daoheng Sun*, Qinnan Chen*. Direct Ink Writing of SiCN/RuO2/TiB2 Composite Ceramic Ink for High-Temperature Thin-Film Sensors[J]. Materials, 2024, 17(15): 3792.(SCI三区)
[12] Yuelong Li, Lida Xu, Chenhe Shao, Fuxin Zhao, Yanzhang Fu, Qingtao Yang, Qinnan Chen*, Chao Wu*, Daoheng Sun*. High-temperature Ag/Pt Thick Film Thermocouple Array for Temperature Distribution Measurement[J]. IEEE Sensors Journal, 2024.(SCI二区)
[12]. L. Ou, T. Wu, B. Qiu, H. Jin, F. Xu, H. Wu, W. Zhang, M. Xue, Z. Zhou, B. Lin, D. Sun*, S. Chen*, Real-time wireless sensing of cardiomyocyte contractility by integrating magnetic microbeam and oriented nanofibers, ACS Applied Materials & Interfaces, 2024, 16, 45861-45870.
[13]. W. Zhang, S. You, Y. Zhou, L. Ou, H. Jin, F. Xu, B. Qiu, B. Lin, Y. Yang, D. Sun*, S. Chen*, Flexible Microelectrode Arrays Based on Vacuum filling for Electrophysiology Sensing of Cardiomyocytes, ACS Applied Electronic Materials, 2024
[14]. F. Xu, H. Jin, H. Wu, A. Jiang, B. Qiu, L. Liu, Q. Gao, B. Lin W. Kong, S. Chen*, D. Sun*, Digital Light Processing Printed Hydrogel Scaffolds with Adjustable Modulus, Scientific Report, 2024, 14, 15695.
[15]. F. Xu, H. Jin, L. Liu, Y. Yang, J. Cen, Y. Wu, S. Chen*, D. Sun*, Architecture design and advanced manufacturing of heart-on-a-chip: scaffolds, stimulation and sensors, Microsystems & Nanoengineering, 2024, 10, 96.
[16]. B. Qiu, D. Wu, M. Xue, L. Ou, Y. Zheng, F. Xu, H. Jin, Q. Gao, J. Zhuang, J. Cen, Y.C. Su, S. Chen*, D. Sun*, 3D aligned nanofiber scaffold fabrication with trench-guided electrospinning for cardiac tissue engineering, Langmuir, 2024, 40, 4709-4718.
[17] Qinnan Chen*, Peng Zhang, Kun Liu, Panhua Xu, Hongcheng Wei, Zhenyin Hai, Dezhi Wu, Yang Zhao, Xi Jin, Xuwei Wang*, Daoheng Sun*. Polymer-derived ceramic thin-film thermocouples for high temperature measurements, Ceramics International, 2023, 49(19): 31248-31254.( SCI二区Top)
[18] Qinnan Chen*, Hongcheng Wei, Xianlong Liu, Yi Xu, Xin Li, Peng Zhang, Zhenyin Hai, Dezhi Wu, Yang Zhao, Kun Liu*, and Daoheng Sun*. High-Temperature, Wide-Range and Fast Response Thin Film Anemometer Based on Plasma of Glow Discharge, IEEE Sensors Journal, 2023, 23(17): 19082-19091. (SCI二区)
[19]. B. Qiu, X. Chen, F. Xu, D. Wu, Y. Zhou, W. Tu, H. Jin, G. He, S. Chen*, D. Sun*, Nanofiber self-consistent additive manufacturing process for 3D microfluidics, Microsystems & Nanoengineering, 2022, 102, 239-246.
[20] Lida Xu, Zaifu Cui, Lanlan Li, Yingping He, Chao Wu, Guochun Chen, Xin Li, Gonghan He, Zhenyin Hai*, Qinnan Chen*, and Daoheng Sun*. In Situ Laser Fabrication of Polymer-Derived Ceramic Composite Thin-Film Sensors for Harsh Environments, ACS Applied Materials & Interfaces,2022, 14(10): 12652-12661.(SCI二区Top)
[21] Zaifu Cui, Guochun Chen, Xin Li, Chao Wu, Gonghan He, Zhenyin Hai*, Qinnan Chen*, and Daoheng Sun*. An anti-oxidative coating made from particle-filled SiCN precursor for applications up to 800 ℃, Journal of Alloys and Compounds, 2022, 913, 165236(1-7).(SCI二区Top)
[22] Chao Wu, Xiaochuan Pan, Fan Lin, Zaifu Cui, Yingping He, Guochun Chen, Yingjun Zeng, Xianlong Liu, Qinnan Chen*, Daoheng Sun*, and Zhenyin Hai*. TiB2/SiCN Thin-film Strain Gauges Fabricated By Direct Writing for High-temperature Application, IEEE Sensors Journal, 2022. (SCI二区)
[23] Chao Wu, Fan Lin, Xiaochuan Pan, Zaifu Cui, Yingping He, Guochun Chen, Xianlong Liu, Gonghan He, Qinnan Chen*, Daoheng Sun*, and Zhenyin Hai*. TiB2-Modified Polymer-Derived Ceramic SiCN Double-Layer Thin Films Fabricated by Direct Writing for High-Temperature Application, Advanced Engineering Materials, 2022, 2200228(1-8).(SCI三区)
[24] Chao Wu, Xiaochuan Pan, Fan Lin, Zaifu Cui, Xin Li, Guochun Chen, Xianlong Liu, Yingping He, Gonghan He, Zhenyin Hai*, Qinnan Chen*, and Daoheng Sun*. High-temperature electrical properties of polymer-derived ceramic SiBCN thin films fabricated by direct writing[J]. Ceramics International, 2022. (SCI二区Top)
[25] Zaifu Cui, Xin Li, Guochun Chen, Chao Wu, Gonghan He, Zhenyin Hai*, Qinnan Chen*, and Daoheng Sun*. Thin-film temperature sensor made from particle-filled polymer-derived ceramics pyrolyzed in vacuum[J]. Journal of the European Ceramic Society, 2022. (SCI二区Top)
[26] Xianlong Liu, Guochun Chen, Paidi Zhou, Yi Xu, Xin Li, Zaifu Cui, Jinting Cui, Zhenyin Hai*, Qinnan Chen*, and Daoheng Sun*. High-temperature and wide-range anemometer based on plasma glow discharge[J]. IEEE Sensors Journal, 2021. (SCI二区)
