联系方式
通讯地址:福建省福州市福州地区大学新区学园路2号邮编:350108
电子邮箱:weifanan@fzu.edu.cn
教育工作经历
2011/08~2013/06, 美国匹兹堡大学, 电子与计算机工程系, 访问学生
2009.09~2015.12, 中科院沈阳自动化所,机械电子工程专业,博士
2009.09~2010.07,中国科学技术大学,自动化专业,硕士代培
2005.09~2009.07,华中科技大学,自动化专业,本科
2019.02~2020.02,美国加州大学圣地亚哥分校,纳米工程系,访问学者
2016.04~2019.06,福州大学,机械工程及自动化学院,讲师
2019.07~至今,福州大学,机械工程及自动化学院,副教授
社会兼职
福建省力学学会理事
研究领域(研究课题)
微纳米机器人、软体机器人、细胞生物力学、有机太阳能电池、知觉替代
主要科研项目(近五年)
1) 国家自然科学基金青年项目,面向细胞三维操控的光致水分解微纳米机器人驱动控制研究,2019-2021,主持,在研
2) 辽宁省自然科学基金机器人学国家重点实验室联合开放基金,仿水母的光控微型游动机器人及其单细胞输运研究,2021~2023,主持,在研
3) 福建省自然科学基金面上项目,基于光致水分解的微纳米机器人驱动与控制方法研究,2017-2020,主持,已结题
4) 中科院沈阳自动化研究所机器人学国家重点实验室开放课题,基于无线无源光致水分解的微纳米机器人,2017-2018,主持,已结题
5) 福州大学能源与环境光催化国家重点实验室开放课题,基于光催化水分解的微纳米机器人驱动研究,2017~2019,主持,已结题
6) 福州大学科研启动基金,光致水分解微纳米机器人,2016-2019,主持,已结题
7) 福州大学贵重仪器设备开放测试基金,光控仿水母微型机器人的驱动与控制研究,2020,主持,在研
8) 福州大学贵重仪器设备开放测试基金,多层薄膜自卷曲微纳米机器人的卷曲机理研究与可控加工,2018,主持,已结题
代表性论著(近五年)
期刊论文:
[1] Junjie Tang, Fanan Wei, “Miniaturized Origami Robots: Actuation Approaches and Potential Applications,”Macromolecular Materials and Engineering, n/a (n/a), 2100671,2021. (Accepted)
[2]Fanan Wei*, Lin Wang, Chao Yin, Tianliang Zhong, Zongxing Lu, and Ligang Yao, "The Voyage of Micro/nanorobots inside Human Body,"Chemnanomat, vol. n/a, no. n/a, 2021. (Accepted)
[3] Yuwen Gao,Fanan Wei*, Yin Chao, and Ligang Yao*, "Bioinspired soft microrobots actuated by magnetic field,"Biomedical Microdevices,vol. 23, no. 4, p. 52, 2021.
[4] Chao Yin,Fanan Wei*, Shihan Fu, Zhushan Zhai, Zhixing Ge, Ligang Yao*, Minlin Jiang, and Ming Liu, "Visible Light-Driven Jellyfish-like Miniature Swimming Soft Robot,"Acs Applied Materials & Interfaces,2021. (封面文章)
[5]Fanan Wei*, Tianliang Zhong, Ziheng Zhan, and Ligang Yao*, "Self‐assembled Micro‐nanorobots: From Assembly Mechanisms to Applications,"Chemnanomat,vol. 7, no. 3, pp. 238-252, 2021.
[6] Shihan Fu,Fanan Wei*, Chao Yin, Ligang Yao*, and Yaxiong Wang, "Biomimetic soft micro-swimmers: from actuation mechanisms to applications,"Biomedical Microdevices,vol. 23, no. 1, p. 6, 2021.
[7] Ziheng Zhan,Fanan Wei*, Jianghong Zheng, Chao Yin, Wenguang Yang, Ligang Yao*, Songsong Tang, and Dong Liu, "Visible light driven recyclable micromotors for “on-the-fly” water remediation,"Materials Letters,vol. 258, 2020.
[8] Songsong Tang, Fangyu Zhang, Hua Gong,Fanan Wei, Jia Zhuang, Emil Karshalev, Berta Esteban-Fernández de Ávila, Chuying Huang, Zhidong Zhou, Zhengxing Li, Lu Yin, Haifeng Dong, Ronnie H. Fang, Xueji Zhang, Liangfang Zhang, and Joseph Wang, "Enzyme-powered Janus platelet cell robots for active and targeted drug delivery,"Science Robotics,vol. 5, no. 43, p. eaba6137, 2020.
[9] Fernando Soto, Daniel Kupor, Miguel Angel Lopez‐Ramirez,Fanan Wei, Emil Karshalev, Songsong Tang, Farshad Tehrani, and Joseph Wang, "Onion‐like Multifunctional Microtrap Vehicles for Attraction–Trapping–Destruction of Biological Threats,"Angewandte Chemie International Edition,vol. 59, no. 9, pp. 3480-3485, 2020.
[10] Xianfeng Dai, Ke Xu, andFanan Wei, "Recent progress in perovskite solar cells: the perovskite layer,"Beilstein Journal of Nanotechnology,vol. 11, pp. 51-60, 2020.
[11] Chao Yin,Fanan Wei*, Ziheng Zhan, Jianghong Zheng, Ligang Yao*, Wenguang Yang, and Minglin Li, "Untethered microgripper-the dexterous hand at microscale,"Biomedical Microdevices,vol. 21, no. 4, p. 82, 2019.
[12]Fanan Wei*, Chao Yin, Jianghong Zheng, Ziheng Zhan, and Ligang Yao*, "Rise of cyborg microrobot: different story for different configuration,"IET Nanobiotechnology, vol. 13, no. 7,pp. 651-664.
[13] Zhenhui Li, Ke Xu, andFanan Wei*, "Recent development of samples' surface properties using scanning ion conductance microscopy,"Micro & Nano Letters,vol. 14, no. 7, pp. 744-748, 2019.
[14] Ziheng Zhan,Fanan Wei*, Jianghong Zheng, Wenguang Yang, Jing Luo, and Ligang Yao*, "Recent advances of light-driven micro/nanomotors: toward powerful thrust and precise control,"Nanotechnology Reviews,vol. 7, no. 6, pp. 555-581, 2018.
[15] Ke Xu, Weihang Sun, Yongjian Shao,Fanan Wei, Xiaoxian Zhang, Wei Wang, and Peng Li, "Recent development of PeakForce Tapping mode atomic force microscopy and its applications on nanoscience,"Nanotechnology Reviews,vol. 7, no. 6, pp. 605-621, 2018.
[16] Zhenhui Li, Ke Xu, andFanan Wei, "Recent progress in photodetectors based on low-dimensional nanomaterials,"Nanotechnology Reviews,vol. 7, no. 5, pp. 393-411, 2018.
[17] Wenguang Yang, Haibo Yu, Gongxin Li,Fanan Wei, Yuechao Wang, and Lianqing Liu, "Mask-free fabrication of a versatile microwell chip for multidimensional cellular analysis and drug screening,"Lab on a Chip,vol. 17, no. 24, pp. 4243-4252, 2017.
[18] Ke Xu, Chuhan Fu, Zhijun Gao,Fanan Wei, Yu Ying, Chong Xu, and Guojiang Fu, "Nanomaterial-based gas sensors: A review,"Instrumentation Science & Technology,vol. 46, no. 2, pp. 115-145, 2017.
[19]Fanan Wei, Ligang Yao, Fei Lan, Guangyong Li, and Lianqing Liu, "Tandem polymer solar cells: simulation and optimization through a multiscale scheme,"Beilstein Journal of Nanotechnology,vol. 8, pp. 123-133, 2017.
[20]Fanan Wei, Haitao Yang, Lianqing Liu, and Guangyong Li, "A novel approach for extracting viscoelastic parameters of living cells through combination of inverse finite element simulation and Atomic Force Microscopy,"Computer Methods in Biomechanics and Biomedical Engineering,vol. 20, no. 4, pp. 373-384, 2017.
[21] Fei Lan, Minlin Jiang, Quan Tao,Fanan Wei, and Guangyong Li, "Reconstruction of Kelvin probe force microscopy image with experimentally calibrated point spread function,"Review of Scientific Instruments,vol. 88, no. 3, p. 033704, 2017.
[22]Fanan Wei, Fei Lan, Bin Liu, Lianqing Liu, and Guangyong Li, "Poroelasticity of cell nuclei revealed through atomic force microscopy characterization,"Applied Physics Letters,vol. 109, no. 21, p. 213701, 2016.
[23] Wenguang Yang, Haibo Yu,Fanan Wei, Gongxin Li, Yuechao Wang, and Lianqing Liu, "Selective pattern of cancer cell accumulation and growth using UV modulating printing of hydrogels,"Biomedical Microdevices,vol. 17, no. 6, p. 104, 2015.
[24]Fanan Wei, Minlin Jiang, Lei Zhou, and Zaili Dong, "Performance improvement of organic solar cells with the introduction of branched zinc oxide nanorods,"Micro & Nano Letters,vol. 10, no. 6, pp. 292-295, 2015.
[25]Fanan Wei, Minlin Jiang, and Lianqing Liu, "Facile Hydrothermal Preparation of ZNO/CO3O4Heterogeneous Nanostructures and its Photovoltaic Effect,"International Journal of Optomechatronics,vol. 9, no. 3, pp. 211-220, 2015.
[26] Quan Tao, Fei Lan, Minlin Jiang,Fanan Wei, and Guangyong Li, "Simulation study of dielectrophoretic assembly of nanowire between electrode pairs,"Journal of Nanoparticle Research,vol. 17, no. 7, 2015.
[27] Na Liu,Fanan Wei, Lianqing Liu, Hok Sum Sam Lai, Haibo Yu, Yuechao Wang, Gwo-Bin Lee, and Wen J. Li, "Optically-controlled digital electrodeposition of thin-film metals for fabrication of nano-devices,"Optical Materials Express,vol. 5, no. 4, pp. 838-848, 2015.
[28] Christian G. Bottenfield,Fanan Wei, Hui Joon Park, L. Jay Guo, and Guangyong Li, "Investigation of Printing-Based Graded Bulk-Heterojunction Organic Solar Cells,"Energy Technology,vol. 3, no. 4, pp. 414-422, 2015.
[29]Fanan Wei, Liming Liu, Lianqing Liu, and Guangyong Li, "Multiscale Modeling and Simulation for Optimizing Polymer Bulk Heterojunction Solar Cells,"IEEE Journal of Photovoltaics,vol. 3, no. 1, pp. 300-309, 2013.
[30] Ke Xu, XiaoJun Tian, ChengDong Wu, Jian Liu, MengXin Li, Ying Sun, andFanan Wei, "Fabrication of single-walled carbon nanotube-based highly sensitive gas sensors,"Science China Technological Sciences,vol. 56, no. 1, pp. 32-35, 2012.
[31] Guangyong Li, Liming Liu,Fanan Wei, Songtao Xia, and Xiaoping Qian, "Recent Progress in Modeling, Simulation, and Optimization of Polymer Solar Cells,"IEEE Journal of Photovoltaics,vol. 2, no. 3, pp. 320-340, 2012.
会议论文:
[1] J. Zheng, Z. Zhan, andF. Wei*, "Stick-slip Motion Style of Magnetic Field Actuated Microrobots," in IEEE-NANO 2019, Macau, 2019, pp. 469-472.
[2]F. Wei*, J. Zheng, and C. Yu, "A Novel Soft Robot Based on Organic Materials: Finite Element Simulation and Precise Control," in ICIRA 2017, Cham, 2017, pp. 103-109.
[3]F. Wei*, P. Zhou, G. Li, and L. Liu, "Finite element simulation of stress relaxation process in living cells," in 10th IEEE International Conference on Nano/Micro Engineered and Molecular Systems, 2015, pp. 67-71.
[4]F. Wei, Q. Tao, G. Li, and L. Liu, "A novel approach for preparation of CuO nanostructures on conductive substrate," in 2015 IEEE Nanotechnology Materials and Devices Conference (NMDC), 2015, pp. 1-4.
[5]F. Wei, L. Li, and L. Liu, "Facile synthesis of copper nanostructures through simple replacement reaction," in 10th IEEE International Conference on Nano/Micro Engineered and Molecular Systems, 2015, pp. 160-163.
[6]F. Wei, L. Liu, and G. Li, "Zinc oxide/copper oxide heterogeneous nanowire preparation and application in UV Sensor," in 14th IEEE International Conference on Nanotechnology, 2014, pp. 776-779.
[7] F. Lan, M. Jiang,F. Wei, Q. Tao, and G. Li, "Study of annealing induced nanoscale morphology change in organic solar cells with machine learning," in 2016 IEEE 16th International Conference on Nanotechnology (IEEE-NANO), 2016, pp. 329-332.
[8] P. Zhou, P. Cong, H. Yu, P. Li,F. Wei, and L. Liu, "AFM tip-induced dielectrophoresis for 3D manipulation of nanoparticles," in 2014 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), 2014, pp. 177-181.
[9] M. Jiang,F. Wei, F. Lan, G. Li, and X. Yan, "Bandgap tuning and morphology amelioration of sol-gel derived Cu2ZnSnS4(CZTS) thin films by selenium incorporation," in 2013 IEEE 39th PhotovoltaicSpecialistsConference (PVSC), 2013, pp. 2602-2604.
专利:
1、魏发南、詹子恒、郑江宏、姚立纲,一种基于电触觉的全色彩视觉替代装置,发明专利,实质审查。
2、魏发南、郑江宏、詹子恒、尹超、姚立纲,一种3D打印微结构的无损脱离方法,发明专利,受理。
3、魏发南、郑江宏、詹子恒、姚立纲,可变结构三维磁场发生系统,发明专利,ZL 2019 1 0543943.1。
4、魏发南、尹超、姚立纲,一种可见光驱动的仿水母微型游动软体机器人及其方法,发明专利,2020115687356。
5、魏发南、唐俊杰,可自适应倾斜面的真空吸嘴,实用新型专利,ZL 2021 2 1001226.5。
指导研究生情况
2016级:郑江宏,磁控微纳米机器人,已毕业,现在福建(泉州)哈工大工程技术研究院工作
2017级:詹子恒,面向水污染治理的光驱动微纳米机器人,已毕业,现在湖南大学攻读博士学位;
2018级:尹超,仿水母光驱动微型机器人,已毕业,现在深圳工作;
2019级:傅世涵、钟天亮、高誉文;
2020级:段团结、蒲伟、王林、翟竹山、刘英、窦光义、唐俊杰;
2021级:王序锋、彭莱昕、张瑞宸。
所有研究生均可推荐到中科院沈阳自动化所、美国匹兹堡大学和加州大学圣地亚哥分校联合培养、读博和交流。