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, Yurchenko D, Fang S* (方仕童). Bistable Multi‐Layer Triboelectric Nanogenerator for Harvesting Random and Ultra‐Low‐Frequency Vibration Energy with Increased Charge Transfer[J]. Advanced Science, 2025: e05246. (中科院一区Top期刊,IF 14.1)
[2] Fang S (方仕童), Zhang Z, Guo Y, et al. Multifunctional regenerative buffering baffle device utilizing fluid-electromechanical interaction for automotive IoV applications[J]. Thin-Walled Structures, 2025, 214: 113342. (中科院一区Top期刊,IF 6.6)
[3] Fang S (方仕童), 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 10.1,SCI他引22次)
[4] Yan T, Chen K, Wang X, Wu K, Zhang J, Lai Z, Fang S* (方仕童), 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 7.9)
[5] Lai Z, Feng A, Fang S* (方仕童), 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 3.7)
[6] Fang S (方仕童), 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 5.6)
[7] Fang S (方仕童), Wang X, Zhang X, et al. High output, lightweight and small-scale rotational piezoelectric energy harvester utilizing internal impact effect[J]. Energy Conversion and Management, 2024, 322: 119180. (中科院一区Top期刊,IF 9.9)
[8] Chen K, Fang S* (方仕童), Yan T, et al. Design and optimization of an auxetic piezoelectric energy harvester with tapered thickness for IoT applications[J]. IEEE Internet of Things Journal, 11(23), 2024: 37831-37841. (中科院一区Top期刊,IF 8.2,SCI他引1次)
[9] Lai Z, Wu M, Zhang J, Wang Z, Feng A, Lin B, Shi R, Xu B, Yurchenko D, Fang S* (方仕童), 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 7.9,SCI他引2次)
[10] Fang S (方仕童), Mirzaei M J, Asadollahi M, et al. Continuous finite-time sliding mode control for synchronization of perturbed bistable electrostatic and piezoelectric transducers with external disturbances[J]. Journal of Vibration and Control, 2023, 29(9-10): 2392-2410. (中科院三区,IF 2.3,SCI他引2次)
[11] Zhang J, Cui R, Wei Y, Yu D, Xie S, Fang S* (方仕童), et al. Optimization and experimental validation of amorphous alloy high-speed asynchronous motor for simultaneous reduction on core and copper losses[J]. IEEE Access, 2023, 11: 101112-101122. (中科院三区,IF 3.4,SCI他引4次)
[12] Fang S (方仕童), Chen K, Lai Z, et al. Analysis and experiment of auxetic centrifugal softening impact energy harvesting from ultra-low-frequency rotational excitations[J]. Applied Energy, 2023, 331: 120355.] (中科院一区Top期刊,IF 10.1,SCI他引24次)
[13] Fang, S. (方仕童), 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 8.4,SCI他引67次)
[14] Fang, S. (方仕童), Chen, K., Lai, Z., Zhou, S., Yurchenko, D., and Liao, W.-H.*, "A bio-inspired system for simultaneous vibration isolation and energy harvesting in post-capture spacecraft," Mechanical Systems and Signal Processing, 199: 110466 (2023). (中科院一区Top期刊,IF 8.4, SCI他引29次)
[15] Fang, S. (方仕童), 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 10.1)
[16] Fang, S. (方仕童), 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,中科院二区Top期刊,IF 3.791,SCI他引72次)
[17] Fang, S. (方仕童), Chen, K., Xing, J., Zhou, S. and Liao, W.-H.*, "Tuned bistable nonlinear energy sink for simultaneously improved vibration suppression and energy harvesting," International Journal of Mechanical Sciences, 212, 106838 (2021). (中科院一区Top期刊,IF 6.77,SCI他引85次)
[18] Fang, S. (方仕童), Wang, S., Zhou, S., Yang, Z., and Liao, W.-H.*, "Analytical and experimental investigation of the centrifugal softening and stiffening effects in rotational energy harvesting," Journal of Sound and Vibration, 488, 115643 (2020). (中科院二区Top期刊,IF 4.3,SCI他引49次)
[19] Fang, S. (方仕童), 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 5.2,SCI他引56次)
[20] Fang, S. (方仕童), Miao, G., Chen, K., Xing, J., Yang, Z., and Liao, W.-H.*, "Broadband energy harvester for low-frequency rotations utilizing centrifugal softening piezoelectric beam array," Energy, 241(7):122833 (2022). (中科院一区Top期刊,IF 9.0)
[21] Fang, S. (方仕童), 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Top期刊,IF 4.3,SCI他引28次)
[22] Fang, S. (方仕童), 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). (中科院二区,IF 3.5, SCI他引10次)
[23] Fang, S. (方仕童), 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). (《中国科学:技术科学(英文版)》,中科院二区期刊,IF 4.4)
[24] Fang, S. (方仕童), 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 3.971)
[25] Fang, S. (方仕童), Wang, S., Mei, X., Zhou, S., Yang, Z., and Liao, W.-H.*, "A centrifugal softening impact energy harvester with the bistability using flextensional transducers for low rotational speeds," Smart Materials and Structures, 29(11), 115024 (2020). (中科院二区,IF 3.7)
[26] Fang, S. (方仕童), 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 5.2)
[27] Fang, S. (方仕童), Padar, Z., Mirzaei, M. J., Zhou, S., and Liao, W.-H.*, "Disturbance rejection and effective performance of perturbed tri-stable energy harvesters by adaptive finite-time disturbance observer," Acta Mechanica Sinica, 521535 (2022). (《力学学报(英文版)》,中科院三区期刊,IF 3.8)
[28] Lai, Z., Xu, J., Fang, S.* (方仕童), Qiao, Z., Wang, S., Wang, C., Huang, Z., and Zhou, S.*, "Energy harvesting from a hybrid piezo-dielectric vibration energy harvester with a self-priming circuit, " Energy, 273: 127205 (2023). (中科院一区Top期刊,IF 9.0)
[29] Chen, K., Fang, S.* (方仕童), 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). (中科院二区Top期刊,IF 4.0, SCI他引27次)
[30] Chen, K., Fang, S.* (方仕童), 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). (中科院二区期刊,IF 3.7)
微信公众号