潘程枫
浙江大学“百人计划”研究员、博导
办公电话:15268491081
通讯地址:紫金港校区开物苑2-319
电子邮件: cfpan@zju.edu.cn
个人主页:https://person.zju.edu.cn/PANChengfeng
一、个人履历
1、教育背景
2016-2020 卡内基梅隆大学 机械工程系 博士
2013-2016 中山大学 生物医学工程专业 硕士
2009-2013 北京交通大学 生物医学工程专业 学士
2、工作经历
2023-今 浙江大学 机械工程学院 百人计划研究员
2020-2023 香港中文大学 机械与自动化工程系 副研究员
二、研究方向
1.柔性电子设备
2. 符合成形制造技术与装备
3. 注塑成形技术与装备
三、发表论文
[1] C. Zhang#, C. Pan#, K.F. Chan*, J. Gao, Z. Yang, K.K.C. Leung, D. Jin, Y. Wang, N. Xia, Z. Ning, X. Wang, J. Shuai, Z. Zhang, Q. Wang, B. Hao, P.W.Y. Chiu*, L Zhang*, Wirelessly powered deformable electronic stent for noninvasive electrical stimulation of lower esophageal sphincter, Science Advances 9(10) (2023) eade8622.
[2] Q. Wang#, C. Pan#, Y. Zhang, L. Peng, Z. Chen, C. Majidi*, L. Jiang*, Magnetoactive liquid-solid phase transitional matter, Matter (2023).
[3] B. Jin#, C. Pan#, N. Xia, J. Song, H. Luo, L. Zhang*, Y. Ding*, Swimming of the midge larva: Principles and tricks of locomotion at intermediate Reynolds number, Physics of Fluids 35(3) (2023) 031903.
[4] N. Xia, D. Jin, C. Pan, J. Zhang, Z. Yang, L. Su, J. Zhao, L. Wang, L. Zhang*, Dynamic morphological transformations in soft architected materials via buckling instability encoded heterogeneous magnetization, Nature Communications 13(1) (2022) 7514.
[5] N. Xia#, B. Jin#, D. Jin, Z. Yang, C. Pan, Q. Wang, F. Ji, V. Iacovacci, C. Majidi*, Y. Ding*, L. Zhang*, Decoupling and reprogramming the wiggling motion of midge larvae using a soft robotic platform, Advanced Materials 34(17) (2022) 2109126.
[6] P. Won, C.S. Valentine, M. Zadan, C. Pan, M. Vinciguerra, D.K. Patel, S.H. Ko, L.M. Walker, C. Majidi*, 3D Printing of Liquid Metal Embedded Elastomers for Soft Thermal and Electrical Materials, ACS Applied Materials & Interfaces 14(49) (2022) 55028-55038.
[7] B. Wang, B. Zhang, Y. Tan, F. Ji, G. Lv, C. Pan, S. Handschuh-Wang, L. Zhang, X. Zhou, Leech‐Inspired Shape‐Encodable Liquid Metal Robots for Reconfigurable Circuit Welding and Transient Electronics, Advanced Intelligent Systems 4(9) (2022) 2200080.
[8] H. Hu#, C. Zhang#, C. Pan, H. Dai, H. Sun, Y. Pan, X. Lai, C. Lyu, D. Tang, J. Fu, P. Zhao*, Wireless Flexible Magnetic Tactile Sensor with Super-Resolution in Large-Areas, ACS nano 16(11) (2022) 19271-19280.
[9] Y. Dong, L. Wang, N. Xia, Z. Yang, C. Zhang, C. Pan, D. Jin, J. Zhang, C. Majidi*, L. Zhang*, Untethered small-scale magnetic soft robot with programmable magnetization and integrated multifunctional modules, Science Advances 8(25) (2022) eabn8932.
[10] J. Wang, J. Zhang, K. Li, C. Pan, C. Majidi, S. Kumar*, Locating everyday objects using NFC textiles, Proceedings of the 20th International Conference on Information Processing in Sensor Networks (co-located with CPS-IoT Week 2021), 2021, pp. 15-30.
[11] J. Wang, C. Pan, H. Jin, V. Singh, Y. Jain, J.I. Hong, C. Majidi, S. Kumar, Speech Recognition Using RFID Tattoos, IJCAI, 2021, pp. 4849-4853.
[12] L. Su, D.D. Jin, C.F. Pan, N. Xia, K.F. Chan, V. Iacovacci, T. Xu, X. Du, L. Zhang*, A mobile magnetic pad with fast light-switchable adhesion capabilities, Bioinspiration & Biomimetics 16(5) (2021) 055005.
[13] Y. Ohm#, C. Pan#, M.J. Ford, X. Huang, J. Liao, C. Majidi*, An electrically conductive silver–polyacrylamide–alginate hydrogel composite for soft electronics, Nature Electronics 4(3) (2021) 185-192.
[14] Y. Dong, L. Wang, N. Xia, Y. Wang, S. Wang, Z. Yang, D. Jin, X. Du, E. Yu, C. Pan, L. Zhang*, Multi-stimuli-response programmable soft actuators with site-specific and anisotropic deformation behavior, Nano Energy 88 (2021) 106254.
[15] C. Pan, D. Liu, M.J. Ford, C. Majidi*, Ultrastretchable, wearable triboelectric nanogenerator based on sedimented liquid metal elastomer composite, Advanced Materials Technologies 5(11) (2020) 2000754.
[16] X. Huang, M. Ford, Z.J. Patterson, M. Zarepoor, C. Pan, C. Majidi*, Shape memory materials for electrically-powered soft machines, Journal of Materials Chemistry B 8(21) (2020) 4539-4551.
[17] M.J. Ford, D.K. Patel, C. Pan, S. Bergbreiter, C. Majidi*, Controlled assembly of liquid metal inclusions as a general approach for multifunctional composites, Advanced Materials 32(46) (2020) 2002929.
[18] J. Yan, M.H. Malakooti, Z. Lu, Z. Wang, N. Kazem, C. Pan, M.R. Bockstaller*, C. Majidi*, K. Matyjaszewski*, Solution processable liquid metal nanodroplets by surface-initiated atom transfer radical polymerization, Nature nanotechnology 14(7) (2019) 684-690.
[19] J. Wang, C. Pan, H. Jin, V. Singh, Y. Jain, J.I. Hong, C. Majidi, S. Kumar*, Rfid tattoo: A wireless platform for speech recognition, Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 3(4) (2019) 1-24.
[20] C. Pan, Y. Ohm, J. Wang, M.J. Ford, K. Kumar, S. Kumar, C. Majidi*, Silver-coated poly (dimethylsiloxane) beads for soft, stretchable, and thermally Stable conductive elastomer composites, ACS applied materials & interfaces 11(45) (2019) 42561-42570.
[21] C. Pan, E.J. Markvicka, M.H. Malakooti, J. Yan, L. Hu, K. Matyjaszewski, C. Majidi*, A liquid‐metal–elastomer nanocomposite for stretchable dielectric materials, Advanced Materials 31(23) (2019) 1900663.
[22] M.H. Malakooti, N. Kazem, J. Yan, C. Pan, E.J. Markvicka, K. Matyjaszewski, C. Majidi*, Liquid metal supercooling for low‐temperature thermoelectric wearables, Advanced functional materials 29(45) (2019) 1906098.
[23] M.J. Ford, C.P. Ambulo, T.A. Kent, E.J. Markvicka, C. Pan, J. Malen, T.H. Ware, C. Majidi*, A multifunctional shape-morphing elastomer with liquid metal inclusions, Proceedings of the National Academy of Sciences 116(43) (2019) 21438-21444.
[24] C. Pan#, K. Kumar#, J. Li, E.J. Markvicka, P.R. Herman, C. Majidi*, Visually imperceptible liquid‐metal circuits for transparent, stretchable electronics with direct laser writing, Advanced Materials 30(12) (2018) 1706937.
[25] S. Xu#, B. Liu#, C. Pan, L. Ren, B. Tang, Q. Hu, L. Jiang*, Ultrafast fabrication of micro-channels and graphite patterns on glass by nanosecond laser-induced plasma-assisted ablation (LIPAA) for electrofluidic devices, Journal of Materials Processing Technology 247 (2017) 204-213.
[26] C. Pan#, K. Chen#, B. Liu, L. Ren, J. Wang, Q. Hu, L. Liang, J. Zhou, L. Jiang*, Fabrication of micro-texture channel on glass by laser-induced plasma-assisted ablation and chemical corrosion for microfluidic devices, Journal of Materials Processing Technology 240 (2017) 314-323.
[27] L. Ren, Q. Jiang, K. Chen, Z. Chen, C. Pan, L. Jiang*, Fabrication of a micro-needle array electrode by thermal drawing for bio-signals monitoring, Sensors 16(6) (2016) 908.
[28] C. Pan, K. Chen, L. Jiang, Z. Chen, L. Ren, L. Liang*, W. Yuan, Magnetization-induced self-assembly method: Micro-needle array fabrication, Journal of Materials Processing Technology 227 (2016) 251-258.
[29] J. Ling, L. Jiang*, K. Chen, C. Pan, Y. Li, W. Yuan, L. Liang, Insertion and pull behavior of worker honeybee stinger, Journal of Bionic Engineering 13(2) (2016) 303-311.
[30] K. Chen, L. Ren, Z. Chen, C. Pan, W. Zhou, L. Jiang*, Fabrication of micro-needle electrodes for bio-signal recording by a magnetization-induced self-assembly method, Sensors 16(9) (2016) 1533.
[31] L. Jiang, C. Pan*, K. Chen, J. Ling, W. Zhou, J. Zhou, L. Liang, Fiber laser carving under ice layer without laser energy attenuation, Journal of Materials Processing Technology 216 (2015) 278-286.
四、专利成果
[1] 蒋乐伦; 陈珂云; 陈志鹏; 凌金田; 潘程枫 ; 一种金属微针阵列的制作方法, 2016-1-20, 中国,ZL201410077281.0
[2] 蒋乐伦; 黄伟龙; 陈珂云; 潘程枫; 凌金田; 陈志鹏 ; 基于高压电场的微针阵列的制作方法, 2016-3-23, 中国, ZL201410308295.9
[3] 蒋乐伦; 唐珮珺; 陈珂云; 陈志鹏; 凌金田; 潘程枫 ; 金属微针阵列的制备方法, 2016-3-23, 中国, ZL201410077284.4
[4] 蒋庆; 蒋乐伦; 陈珂云; 凌金田; 潘程枫 ; 生物微样品测量系统, 2015-7-22, 中国,
ZL201310434994.3
[5] 蒋乐伦; 潘程枫; 黄勇; 凌金田; 陈珂云 ; 一种热电制冷装置及应用该装置的激光加工方法, 2015-7-22, 中国, ZL201310685993.6
[6] Carmel Majidi; Chengfeng Pan; Kitty Kumar ; Stretchable Electronics and Methods of Making the Same, 2021-4-26, 美国, US2021/0265074A1 (公开)
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