个人简介
陈沁楠,厦门大学萨本栋微米纳米科学技术研究院副教授,博士生导师,硕士生导师,福建省高层次人才,厦门市高层次人才。主要研究兴趣为航空航天、新能源等领域极端环境下的光电传感与微纳制造,近年来主持了国家自然科学基金面上项目、国家重点研发计划项目子课题、福建省“揭榜挂帅”重大技术攻关项目课题等十余项,以第一作者或通讯作者在Small、Nanoscale、Optics Letters等国际期刊发表论文三十余篇,授权发明专利十余项,获福建省自然科学优秀学术论文二等奖(排名第一)、福建省科技进步一等奖(排名第五)和厦门市科技进步二等奖(排名第四)。
教育与工作经历
2023.08-至今 厦门大学萨本栋微米纳米科学技术研究院,副教授
2023.02-2023.07 厦门大学萨本栋微米纳米科学技术研究院,助理教授
2018.03-2023.02 厦门大学航空航天学院,助理教授
2015.12-2018.02 厦门大学仪器科学与技术博士后流动站,博士后
2010.09-2015.06 天津大学精密仪器与光电子工程学院,工学博士
2006.09-2010.06 天津大学精密仪器与光电子工程学院/南开大学信息技术科学学院(联合培养),工学学士
教学工作
《电工技术》(本科,2018至今)
《光学工程与应用》(本科,2020至今)
《微纳制造技术》(本科/研究生,2018至今)
研究领域
面向航空航天、新能源等领域极端环境下光电传感与微纳制造需求,开展光与物质相互作用规律、微纳结构形性演变行为、共形微结构可靠制造、多物理量智能感知等基础科学与关键技术问题研究。
荣誉奖励
[1] 福建省高层次人才、厦门市高层次人才
[2] 2020年福建省自然科学优秀学术论文二等奖(排名1)、2022年福建省科学技术进步奖一等奖(排名5)、2020年厦门市科学技术进步奖二等奖(排名4)
[3] 2022年“MINE优秀青年科学家提名奖”、2023年福建省高校青年教师电工学竞赛二等奖
代表性论文
#共同一作,*通讯作者
[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] 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)
[4] Peng Zhang#, Gengfeng Zheng#, Haoran Li, Fuxin Zhao, Hongcheng Wei, Yinjun Zeng, Weitao Jiang, Daoheng Sun, Qinnan Chen*. Measurements of Polymer-Derived Ceramic Thin-Film Strain Gauges at High Temperatures[J]. IEEE Sensors Journal, 2024.(SCI二区)
[5] 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)
[6] 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)
[7] 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)
[8] Hongcheng Wei#, Haoran Li#, Peng Zhang#, Weitao Jiang, Daoheng Sun, Qinnan Chen*. Polymer-Derived Ceramics Thin-Film Plasma Anemometer with High Resistance to Plasma Sputtering[J]. IEEE Sensors Journal, 2024.(SCI二区)
[9] 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)
[10] 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)
[11] 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)
[12] 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)
[13] 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)
[14] 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)
[15] 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)
[16] 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)
[17] 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)
[18] Xin Li, Daoheng Sun*, Baolin Liu, Zaifu Cui, Qinnan Chen*, Gonghan He, and Zhenyin Hai*. High-sensitive thin film heat flux gauge with ITO/In2O3 thermopile on nickel alloys for turbine blade applications[J]. IEEE Sensors Journal, 2021. (SCI二区)
[19] Zaifu Cui, Xin Li, Xiaochuan Pan, Guochun Chen, Yali Li, Chao Wu, Xianlong Liu, Tao Yang, Zhenyin Hai*, Gonghan He, Qinnan Chen*, and Daoheng Sun*. Polymer-derived ceramic thin-film temperature sensor[J]. Sensors and Actuators A: Physical, 2021, 332: 113038. (SCI三区)
[20] Kunpeng Zhang, Yanfei Liao, Bin Qiu, Yuekun Zheng, Lingke Yu, Gonghan He, Qinnan Chen*, and Daoheng Sun*. 3D Printed Embedded Metamaterials. Small[J]. 2021, 17, 2103262. (SCI一区)
[21] Xin Li, Daoheng Sun*, Zaifu Cui, Tao Yang, Qinnan Chen*, Gonghan He, Baolin Liu, Zhenyin Hai*, Chao Wu, and Zong Yao. The influence of spatial arrangement of endpoints on output characteristics of ITO/In2O3 heat flux gauge[J]. Sensors and Actuators A: Physical, 2021, 322: 112587. (SCI三区)
[22] Xuecui Mei#, Qinnan Chen#, Shihu Wang, Wei Wang, Daoheng Sun*, Dezhi Wu*. Microscale Weissenberg Effect for High-viscosity Solution Pumping at the Picoliter Level[J]. Nanoscale, 10, 2018: 7127-7137. (SCI一区)
[23] Xiaojun Chen#, Qinnan Chen#, Dezhi Wu, Yuekun Zheng, Zhou Zhou, Kunpeng Zhang, Wenlong Lv, Yang Zhao, Liwei Lin and Daoheng Sun*. Sonochemical and Mechanical Stirring Synthesis of Liquid Metal Nanograss Structures for Low-cost SERS Substrates[J]. Journal of Raman Spectroscopy, 2018; 49: 1301– 1310. (SCI三区)
[24] Yang Zhao, Di Xu, Jiazheng Sheng, Qinglong Meng, Dezhi Wu, Lingyun Wang, Jingjing Xiao, Wenlong Lv, Qinnan Chen* and Daoheng Sun. Biomimetic Beetle-Inspired Flapping Air Vehicle Actuated by Ionic Polymer-Metal Composite Actuator[J]. Applied Bionics and Biomechanics, 2018, 2018. (SCI四区)
[25] Qinnan Chen, Xuecui Mei, Zhe Shen, Dezhi Wu, Yang Zhao, Lingyun Wang, Xiaojun Chen, Gonghan He, Zhe Yu, Ke Fang and Daoheng Sun*. Direct write micro/nano optical fibers by near-field melt electrospinning[J]. Optics Letters, 2017, 42(24): 5016-5019. (SCI二区Top)
[26] Qinnan Chen, Tiegen Liu, Kun Liu*, Junfeng Jiang, Zhe Shen, Zhenyang Ding, Haofeng Hu, Liang Pan and Chunyu Ma, An Improved Positioning Algorithm with High Precision for Dual Mach-Zehnder Interferometry Disturbance Sensing System[J]. Journal of Lightwave Technology, 2015, 33(10): 1954-1960. (SCI一区)
[27] Qinnan Chen, Tiegen Liu, Kun Liu*, Junfeng Jiang, Zhenyang Ding, Lei Zhang, Yu Li, Liang Pan, and Chunyu Ma, An Elimination Method of Polarization-Induced Phase Shift and Fading in Dual Mach-Zehnder Interferometry Disturbance Sensing System[J]. Journal of Lightwave Technology, 2013, 31(19): 3135-3141. (SCI一区)
代表性专利
[1] 陈沁楠,孙道恒,吴德志,梅学翠,陈小军,方可, 一种基于电流体动力喷印的微球谐振腔制造方法, 授权日期:2017.09.28, 中国发明专利, ZL201710900923.6.
[2] 陈沁楠,孙道恒,吴德志,梅学翠,陈小军,方可, 一种螺旋光纤光栅制造装置及其制造方法, 授权日期:2019.04.30, 中国发明专利, ZL201710900922.1.
[3] 陈沁楠,林吉安,孙道恒,海振银,何功汉,徐攀华,魏宏成,崔在甫, 聚合物先驱体陶瓷-磷光粉复合测温涂层及其制备方法, 授权日期:2022.05.17, 中国发明专利, ZL202210535783.8.
[4] 孙道恒,陈沁楠,魏宏成,刘贤龙,海振银,何功汉,徐攀华, 一种等离子体薄膜风速敏感元件及其制备方法和压气机, 授权日期:2022.06.22, 中国发明专利, ZL202210711427.7.
[5] 刘琨,刘铁根,陈沁楠,江俊峰,丁振扬,潘亮,李玉,马春宇, 基于遗传算法的光纤扰动系统的偏振控制方法及其装置, 授权日期:2014.05.26, 中国发明专利, ZL201410226340.6.
[5] 孙道恒,张昆鹏,何功汉,陈沁楠, 嵌入电磁超材料的结构功能共体透波罩及其制备方法, 授权日期:2021.04.08, 中国发明专利, ZL202110379899.2.
[7] 陈沁楠,张朋,孙道恒,尤晓萍,沈婷婷,吕文龙,何功汉, 一种液相成型陶瓷-改性填料复合红外发光体及其制备方法, 申请日期:2024.8.29, 中国发明专利, CN202411198952.9.
[8] 陈沁楠,石凯冬,孙道恒,叶恩东,何功汉, 一种基于数字光的曲面温度及形变检测方法及装置, 申请日期:2024.11.6, 中国发明专利, CN202411573154.X.
[6] 陈沁楠,张朋,孙道恒,魏宏成,沈婷婷,乔烨,海振银,何功汉, 一种可制备大尺寸高精度器件的固化成型设备, 授权日期:2023.09.12, 中国实用新型, ZL202322472246.6.
[10] 陈沁楠,石凯冬,孙道恒,尤晓萍,吕文龙,羌笛声, 一种基于磷光涂层的传感器, 申请日期:2024.8.16, 中国实用新型, CN202421996421.X.
代表性科研项目
[1] 国家自然科学基金面上项目:聚合物先驱体陶瓷-磷光体复合传感涂层发光行为与调控研究,62475224,在研,主持。
[2] 国家重点研发计划子课题:结构光场纳米位移传感技术研究,2021YFB3200201,在研,主持。
[3] 光启技术(002625)委托横向课题:结构功能一体化高性能机载天线器件增材制造关键技术研发,校合20213160A0407,结题,主持。
[4] 国家自然科学基金青年项目:基于光纤SERS和微流控的汞离子传感器关键技术研究,60605163,结题,主持。
[5] 福建省科技厅“揭榜挂帅”重大技术攻关项目课题:氮化铝钪薄膜制备工艺及器件验证,2023HZ01230006,在研,主持。
[6] 厦门时代研究院有限公司委托横向课题:电池原位光谱表征方法及设备开发项目,校合20233160A0676,在研,主持。
[7] 福建省自然科学基金面上项目:基于微流控的可重用汞离子SERS传感技术研究,2019J01043,结题,主持。
[8] 中国博士后科学基金面上项目:用于汞离子检测的微流控SERS芯片研究,2017M612132,结题,主持。
[9] 福建省重点实验室开放基金课题:高温部件结构共形先驱体陶瓷薄膜传感技术研究,FJIES2023KF06,在研,主持。
[10] 电计测控委托横向课题:基于光子晶体光纤的拉曼气体传感技术研究,校合20233160A0677,在研,主持。
学术兼职
中国微米纳米技术学会高级会员、中国仪器仪表学会高级会员
《Nanotechnology and Precision Engineering》期刊青年编委、厦门市科技咨询评审专家、福建省稀土功能材料重点实验室学术委员会委员
