方仕童-日本AV女优

研究领域：

1. 自供能无线传感
2. AI驱动超结构逆向设计
3. 吸声与吸能

入选第十届(2024-2026年度)中国科协青年人才托举工程项目；2024年，2025年连续两年入选全球前2%顶尖科学家榜单，以第一/通讯作者发表SCI论文33篇(含TOP期刊论文20篇，ESI高被引论文3篇，APL特色封面文章1篇)，SCI他引1600余次，2024年入选全球前2%顶尖科学家榜单

谷歌学术：//scholar.google.com/citations?hl=zh-CN&user=8JmEJp8AAAAJ

招收2027年9月入学的机械工程博士生，对自供能无线传感、AI驱动的超结构逆向设计、吸声与吸能等相关研究感兴趣的同学请联系[email protected]。（优先考虑对学术热忱的同学）

进入课题组可获得什么？
①海外（中国香港、英国等）国内985高校多位教授联合指导，实验、计算资源充足，毕业后可推荐至国内外知名高校继续深造、可推荐至机器人相关公司及新能源汽车公司实习与就业；
②老师对课题的直接指导（代码、实验、写作），随时答疑；
③课题组定期团建。

主讲本科课程：

计算机网络与应用
智能控制基础与实践

主讲研究生课程：

论文写作指导

教育背景：

2017-2021＆2021，香港中文大学，机械与自动化工程系，博士（香港特区政府奖学金获得者HKPFS）＆博士后
2019-2020，西北工业大学，航空学院，访问学者
2013-2017，中山大学，能源与动力工程，学士

工作履历：

2022.05-2023.02，日本AV女优，助理教授
2023.02-2025.09，日本AV女优，特聘副研究员
2025.09至今，日本AV女优，特聘研究员

主持项目：

• 2026.01-2029.12 国家自然科学基金委员会, 面上项目, 主持
• 2024.11-2027.11 中国科学技术协会, 第十届中国科协青年人才托举工程项目, 主持
• 2023.01-2025.12 国家自然科学基金委员会, 青年科学基金项目, 主持
• 2023.01-2025.12 广东省基础与应用基础研究基金委员会, 广东省自然科学基金-面上项目, 主持
• 2023.09-2026.08 深圳市科技创新委员会, 深圳市自然科学基金-面上项目, 主持
• 2023.01-2024.12 深圳市科技创新委员会, 优秀科技创新人才培养项目, 主持
• 2022.10-2024.09 深圳市科技创新委员会, 深圳市高等院校稳定支持计划, 主持
• 2023.12-2026.12 深圳市孔雀计划科研经费-主持

代表期刊论文：

近五年代表性一作/通讯论文如下：
[1] Guan, Y., Li, X., Wei, Z., Xiao, M., Lai, Z., Dong, S., Yurcchenko, D., Fang, S.*, "Bistable multi-layer triboelectric nanogenerator for harvest-ing random and ultra-low-frequency vibration energy with increased charge transfer", Advanced Science, e05246 (2025). (中科院一区Top期刊, IF=14.1)
[2] Fang, S., Zhou, S.*, Yurchenko, D., Yang, T. and Liao, W.-H., "Multistability phenomenon in signal processing, energy harvesting, composite structures, and metamaterials: A review," Mechanical Systems and Signal Processing, 166, 108419 (2022). (ESI高被引论文，中科院一区Top期刊，IF 8.9，SCI他引151次)
[3] Fang, S., Chen, K.*, Lai, Z., Zhou, S., and Liao, W.-H.*, "Analysis and experiment of auxetic centrifugal softening impact energy harvesting from ultra-low-frequency rotational excitations," Applied Energy, 331, 120355 (2023). (ESI高被引论文，中科院一区Top期刊，IF 11)
[4] Fang, S., Wang, S., Zhou, S.*, Yang, Z., and Liao, W.-H., "Exploiting the advantages of the centrifugal softening effect in rotational impact energy harvesting," Applied Physics Letters, 116(6), 063903 (2020). (ESI高被引论文，APL特色文章及APL最高引用研究，Nature Index期刊，IF 3.6，SCI他引60次)
[5] Fang, S., Chen, K., Xing, J., Zhou, S. and Liao, W.-H.*, "Tuned bistable nonlinear energy sink for simultaneously improved vibration sup-pression and energy harvesting," International Journal of Mechanical Sciences, 212, 106838 (2021). (中科院一区Top期刊，IF 9.4，SCI他引90次)
[6] Fang, S., Wang, X., Zhang, X., et al. High output, lightweight and small-scale rotational piezoelectric energy harvester utilizing internal im-pact effect[J]. Energy Conversion and Management, 2024, 322: 119180. (中科院一区Top期刊，IF 10.9)
[7] Yan, T., Chen, K., Wang, X., Wu, K., Zhang, J., Lai, Z., Fang, S.*, et al. Triggering high-energy orbits of 2-DOF bistable rotational energy harvesters through phase difference[J]. Mechanical Systems and Signal Processing, 2025, 224: 112082. (中科院一区Top期刊，IF 8.9)
[8] Fang, S., Chen, K., Lai, Z., Zhou, S., Yurchenko, D., and Liao, W.-H.*, "A bio-inspired system for simultaneous vibration isolation and ener-gy harvesting in post-capture spacecraft," Mechanical Systems and Signal Processing, 199: 110466 (2023). (中科院一区Top期刊，IF 8.9, SCI他引40次)
[9] Fang, S., Du, H., Yan, T., et al. Theoretical and experimental investigation on the advantages of auxetic nonlinear vortex-induced vibration energy harvesting[J]. Applied Energy, 2024, 356: 122395. (中科院一区Top期刊，IF 11，SCI他引36次)
[10] Fang, S., Miao, G., Chen, K., Xing, J., Yang, Z., and Liao, W.-H.*, "Broadband energy harvester for low-frequency rotations utilizing cen-trifugal softening piezoelectric beam array," Energy, 241(7):122833 (2022). (中科院一区Top期刊，IF 9.4)
[11] Fang, S., Wang, S., Zhang, G., Wang, C., Xu, J., Wang, Z., Feng, A., Qiao, Z., Yurchenko, D., and Lai, Z.*, "On high-performance rotational energy harvesting with a novel cam-like dielectric elastomer generator," Science China Technological Sciences, 66, 1317-1334 (2023). (中国科技期刊卓越行动计划梯队期刊，中科院一区TOP期刊，IF 4.9)
[12] Chen, K., Fang, S.*, Yan, T., et al. Design and optimization of an auxetic piezoelectric energy harvester with tapered thickness for IoT ap-plications[J]. IEEE Internet of Things Journal, 11(23), 2024: 37831-37841. (中科院一区Top期刊，IF 8.9)
[13] Zheng, X., Cheng, Z.*, Wang, B., Peng, W., Yu, Y., Peng, H., Lei, Y., Lv, X., Chang, J.*, Fang, S.*, Dong, S.*, A self-powered double U-finger MME resonator capable of wirelessly capturing abnormal message in smart grid networks, Advanced Science, e08149, (2025). (中科院一区TOP期刊，IF=14.1)
[14] Fang, S., Fu, X., and Liao, W.-H.*, "Modeling and experimental validation on the interference of mechanical plucking energy harvesting," Mechanical Systems and Signal Processing, 134, 106317 (2019). (中科院一区Top期刊，IF 8.9，SCI他引29次)
[15] Fang, S., Peng, H., Zhang, C., et al. Synchronous and asynchronous vibration suppression and energy harvesting techniques: Principles, methods and applications[J]. Engineering Structures, 2024, 321: 118994. (中科院一区Top期刊，IF 6.4)
[16] Fang, S., Zhang, Z., Guo, Y., Gao, Q., Lai, Z., and Bao, B.*, "Multifunctional regenerative buffering baffle device utilizing fluid-electromechanical interaction for automotive IoV applications". Thin-Walled Structures, 214: 113342 (2025). (中科院一区Top期刊，IF 6.6)
[17] Lai, Z., Wu, M., Zhang, J., Wang, Z., Feng, A., Lin, B., Shi, R., Xu, B., Yurchenko, D., Fang, S.*, et al. A pendulum-type annular dielectric elastomer generator for multi-directional ultra-low-frequency vibration energy harvesting[J]. Mechanical Systems and Signal Processing, 2024, 220: 111704. (中科院一区Top期刊，IF 8.9)
[18] Fang, S., Fu, X., Du, X., and Liao, W.-H.*, "A music-box-like extended rotational plucking energy harvester with multiple piezoelectric cantilevers," Applied Physics Letters, 114(23), 233902 (2019). (Nature Index期刊，IF 3.6，SCI他引76次)
[19] Fang, S., Wang, S., Miao, G., Zhou, S.*, Yang, Z., Mei, X., and Liao, W.-H., "Comprehensive theoretical and experimental investigation of the rotational impact energy harvester with the centrifugal softening effect," Nonlinear Dynamics, 101(1), 123-152 (2020). (中科院二区Top期刊，IF 6，SCI他引46次)
[20] Fang, S., Padar, N., Mirzaei, M. J., Chen. K., and Lai, Z.H.*, "Fast fixed-time sliding mode control of a bistable dual-stage vibration isolator with disturbances," Nonlinear Dynamics, 1-16, 2023. (中科院二区Top期刊，IF 6)
[21] Fang, S., Wang, S., Zhou, S., Yang, Z., and Liao, W.-H.*, "Analytical and experimental investigation of the centrifugal softening and stiff-ening effects in rotational energy harvesting," Journal of Sound and Vibration, 488, 115643 (2020). (中科院二区Top期刊，IF 4.9，SCI他引39次)
[22] Fang, S., Fu, X., and Liao, W.-H.*, "Asymmetric plucking bi-stable energy harvester: Modeling and experimental validation," Journal of Sound and Vibration, 459, 114852 (2019). (中科院二区Top期刊，IF 4.9，SCI他引43次)
[23] Lai, Z., Xu, J., Fang, S.*, Qiao, Z., Wang, S., Wang, C., Huang, Z., and Zhou, S.*, "Energy harvesting from a hybrid piezo-dielectric vibra-tion energy harvester with a self-priming circuit, " Energy, 273: 127205 (2023). (中科院一区Top期刊，IF 9.4)
[24] Fang, S., Xing, J., Chen, K., Fu, X., Zhou, S., and Liao, W.-H.*, "Hybridizing piezoelectric and electromagnetic mechanisms with dynamic bistability for enhancing low-frequency rotational energy harvesting," Applied Physics Letters, 119(24), 243903 (2021). (中科院二区Top期刊，IF 3.6)
[25] Wang, X., Fang, S.*, Lai, Z., Zhou, S., and Liao, W. H., "Investigating the advantages of internal impact in high-performance lightweight ultra-low-frequency rotational energy harvesters," Applied Physics Letters, 125(16), 163905 (2024). (Nature Index期刊)
[26] Fang, S., Chen, K., Zhao, B., Lai, Z.*, Zhou, S., and Liao, W.-H.*, "Simultaneous broadband vibration isolation and energy harvesting at low frequencies with quasi-zero stiffness and nonlinear monostability". Journal of Sound and Vibration, 553: 117684 (2023). (中科院二区期刊，IF 4.3，SCI他引34次)
[27] Lai, Z., Feng, A., Fang, S.*, et al. Advantages of a novel truncated cone DE-air generator in energy conversion[J]. Smart Materials and Structures, 2024, 33(9): 095023. (中科院三区，IF 3.8)
[28] Fang, S., Mirzaei, M. J., Asadollahi, M., et al. Continuous finite-time sliding mode control for synchronization of perturbed bistable electro-static and piezoelectric transducers with external disturbances[J]. Journal of Vibration and Control, 2023, 29(9-10): 2392-2410. (中科院三区，IF 2.4，SCI他引2次)
[29] Fang, S., Chen, K.*, Lai, Z., Zhou, S., and Liao, W.-H.*, "Snap-through energy harvester with buckled mechanism and hierarchical auxetic structures for ultra-low-frequency rotational excitations". Applied Physics Letters, 122(9): 093901 (2023). (Nature Index期刊，IF 3.6, SCI他引14次)
[30] Chen, K., Fang, S.*, Lai, Z., Cao, J., and Liao, W. H.*, "A frequency up-conversion rotational energy harvester with auxetic structures for high power output," Smart Materials and Structures, 32(4): 045019 (2023). (中科院三区，IF 3.8)
[31] Chen, K., Fang, S.*, Gao, Q., Zou, D., Cao, J., and Liao, W. H.*, "Enhancing power output of piezoelectric energy harvesting by gradient auxetic structures," Applied Physics Letters, 120(10): 103901 (2022). (Nature Index期刊，IF 3.6)
[32] Fang, S.*, Padar, N., Mirzaei, M. J., Zhou, S., and Liao, W. H. "Disturbance rejection and performance enhancement of perturbed tri-stable energy harvesters by adaptive finite-time disturbance observer," Acta Mechanica Sinica, 38(8): 521535 (2022). (中科院二区期刊，IF 4.6)

代表会议论文：

[1] Fang, S., Wang, S., Zhou, S., Yang, Z., and Liao, W.-H., "A rotational impact energy harvester utilizing the centrifugal softening effect," Proc. Active and Passive Smart Structures and Integrated Systems IX, International Society for Optics and Photonics, 11376, 113761G (2020). （线上）
[2] Fang, S., Fu, X., and Liao, W.-H., "Analysis of the interference in typical rotational plucking energy harvester," Proc. Active and Passive Smart Structures and Integrated Systems XIII, International Society for Optics and Photonics, 10967, 1096727 (2019). （美国，丹佛）
[3] Fang, S., and Liao, W.-H., "Impulsively-excited bi-stable energy harvester combined with electromagnetic mechanism," Proc. Smart Materials, Adaptive Structures and Intelligent Systems, American Society of Mechanical Engineers, 51951, V002T007A005 (2018). （美国，圣东安尼奥）

代表专利：

[1] 方仕童，彭浩贤，赖志慧. 适用于在轨捕获的同步隔振与俘能装置及在轨捕获航天器. 专利号：202310196047.9. 申请日：2023.02.24. 授权日：2023.06.07

[2] 方仕童，王锡颖，阎涛，赖志慧. 基于压电效应的旋转碰撞俘能装置以及电子设备. 专利号：202311138852.2. 申请日：2023.09.04. 授权日：2024.08.07.

[3] 赖志慧，王周周，方仕童，冯爱杰，吴梦瑶. 一种介电双稳装置及无源自传感故障诊断系
统. 专利号：202210764388.7. 申请日：2022.06.30. 授权日：2023.04.14.

[4] 赖志慧，冯爱杰，方仕童，吴梦瑶，王周周. 一种复合介质型静电式能量采集装置. 专利号：202210755666.2. 申请日：2022.06.30. 授权日：2023.07.04

[5] 赖志慧，林邦杰，张国庆，方仕童. 一种存储装置及月球探测系统. 专利号：202210780530.7. 申请日：2022.07.04. 授权日：2023.05.12.

获得荣誉：

• 2024年全球前2%顶尖科学家
• ESI高被引论文5篇
• Applied Physics Letters（中科院Top期刊）封面精选文章 (Featured Article) 并获美国物理联合会《科学之光》 (AIP Scilight) 专访报道 (//doi.org/10.1063/10.0000782)
• 2023年度美国机械工程师学会最佳论文奖（一等奖）
• 2023年度 VEH2022+1会议最佳报告奖
• 2022年度香港中文大学工程学院最佳博士论文奖（一等奖）
• 2022年度国际应用可持续技术创新中心ICAST会议论文奖（金奖）
• 2021年度美国机械工程师学会最佳学生论文奖（二等奖）
• 2017年度香港特区政府博士奖学金（一等奖）
• 2016年度，2015年度，2014年度本科生国家奖学金

主要学术兼职：

• 2025.02至今中国机械工程学会设备智能运维分会第十一届委员会青年委员
• 2022.06-2023.06 客座编辑-《Energies》期刊
• 2023 国家自然科学基金面上项目函评专家

担任Mechanical Systems and Signal Processing, Journal of Intelligent Material Systems and Structures, Applied Physics Letters, Journal of Sound and Vibration, International Journal of Mechanical Sciences等国际SCI期刊审稿人