代表性论文专著
在Cell姊妹刊Matter、Nature Communications, National Science Review(《国家科学评论》),Science Bulletin, Advanced Materials, Advanced Functional Materials, Small, Carbon, ASME和IEEE会刊等期刊上发表SCI论文30余篇。
After 2021
[40] Zhou, J. F., Hu, K. M.(*), Lin, H. Y., Dong, Z. Q., Zhao, T. Y., Li, X. X., ... & Zhang, W. M.Dynamic Wrinkling Instability of Elastic Films on Viscoelastic Substrates[J]. Journal of Applied Mechanics, 2024: 1-29.
[38] Yuan, W., Deng, X., Wang, Z., Ma, T., Yan, S., Gao, X., ... Hu, K.(*), & Jiang, X. (*) (2024). Photochemical Design for Diverse Controllable Patterns in Self‐Wrinkling Films. Advanced Materials, 2400849.
[37] Dong Z Q, Hu K M(*), Lin H Y, et al. Dynamic behaviors of delaminated nanofilms partly bonded on substrates with sub-nanoscale van der Waals dynamic boundaries[J]. ASME Journal of Applied Mechanics, 2024, 91(5).
[36] Xin Y H, Hu K M(*), Yin H Z, et al. Dynamic Optical Encryption Fueled via Tunable Mechanical Composite Micrograting Systems[J]. Advanced Materials, 2024: 2312650.
[35] Yan, S., Deng, X., Chen, S., Ma, T., Li, T., Hu, K., & Jiang, X. (2023). Deformation‐induced Photo‐Programmable Pattern of Polyurethane Elastomers Based on Poisson Effect. Advanced Materials, 2307445.
[34] Fang, X. Y., Liu, C. C., Li, X. Y., Wu, J. H., Hu, K. M. (*), & Zhang, W. M. (2023). Evaluation of Residual Stress in MEMS Micromirror Die Surface Mounting Process and Shock Destructive Reliability Test. IEEE Sensors Journal.
[33] Kai-Ming Hu, Wang Guo, Xin-Lu Deng, Xiu-Yuan Li, Er-Qi Tu, Yi-Hang Xin, Zhong-Ying Xue, Xue-Song Jiang, Gang Wang, Guang Meng, Zeng-Feng Di, Liwei Lin, Wen-Ming Zhang. (2023). Deterministically self-assembled 2D materials and electronics. Matter. ,6(5), 1654-1668.
[32] Yan, S. (#), Hu, K.. M.(#), Chen, S., Li, T., Zhang, W., ... & Jiang, X. (2022). Photo-induced stress relaxation in reconfigurable disulfide-crosslinked supramolecular films visualized by dynamic wrinkling. Nature Communications, 13(1), 1-10. (Editor's Highlights!)
[31] Chen, S.(#), Hu, K.. M.(#), Yan, S., Ma, T., Deng, X., Zhang, W., ... & Jiang, X. (2022). Dynamic metal patterns of wrinkles based on photosensitive layers. Science Bulletin. 67(21), 2186-2195
[30] Peng, B., Hu, K. M., Fang, X. Y., Li, X. Y., & Zhang, W. M. (2022). Modal characteristics of coupled MEMS resonator array under the effect of residual stress. Sensors and Actuators A: Physical, 333, 113236.
[29] Chen, Y., Song, P., Wang, C., Zhang, M., Hu, K., Tian, Z., ... & Di, Z. (2022). A Versatile Approach to Create Nanobubbles on Arbitrary Two‐Dimensional Materials for Imaging Exciton Localization. Advanced Materials Interfaces, 2201079.
[28] Bai, J., Hu, K.(*), Zhang, L., Shi, Z., Zhang, W., Yin, J., & Jiang, X. (2022). The Evolution of Self-Wrinkles in a Single-Layer Gradient Polymer Film Based on Viscoelasticity. Macromolecules.
[27] Fang, X. Y., Hu, K. M., Yan, G., Wu, Z. Y., Wu, J. H., & Zhang, W. M. (2021). Shock Destructive Reliability Analysis of Electromagnetic MEMS Micromirror for Automotive LiDAR. Journal of Microelectromechanical Systems, 31(1), 134-142.
[26] Fang, X. Y., Li, X. Y., Hu, K. M., Yan, G., Wu, J. H., & Zhang, W. M. (2021). Destructive Reliability Analysis of Electromagnetic MEMS Micromirror Under Vibration Environment. IEEE Journal of Selected Topics in Quantum Electronics, 28(5), 1-8.
before 2021
[1] Hu, K. M. (#), Liu, Y. Q.(#), Zhou, L. W., Xue, Z. Y., Peng, B., Yan, H., Di, Z. F. (*), Jiang, X. S. (*), Meng. G., Zhang, W. M. (*) (2020). Delamination‐Free Functional Graphene Surface by Multiscale, Conformal Wrinkling. Advanced Functional Materials, 30(34), 2003273. (Q1, IF= 18.808)
[2] Zhou, L. (#), Hu, K.M. (#), Zhang, W. M. (*), Meng, G., Yin, J., Jiang, X. S. (*) (2020). Regulating surface wrinkles using light. National Science Review, 7(7), 1247–1257. (Q1, IF=17.275)
[3] Hou, H. H. (#), Hu, K. M. (#), Lin, H., Forth, J., Zhang, W. M. (*), Russell, T. P. (*), Yin, J., Jiang, X. (*) (2018). Reversible Surface Patterning by Dynamic Crosslink Gradients: Controlling Buckling in 2D. Advanced Materials, 30(36), 1803463. (Q1, IF=30.849)
[4] Hu, K. M. (#), Xue, Z. Y. (#), Liu, Y. Q., Long, H., Peng, B., Yan, H., Di, Z. F. (*), Wang, X., Lin, L., Zhang, W. M. (*) (2019). Tension‐Induced Raman Enhancement of Graphene Membranes in the Stretched State. Small, 15(2), 1804337. (Q1, IF=13.281)
[5] Hu, K. M.(#), Xue, Z. Y.(#), Liu, Y. Q., Peng, B. H., Le, X. H., Peng, B., Yan, H., Di, Z. F. (*), Xie, J., Lin, L., Zhang, W. M. (*) (2019). Probing built-in stress effect on the defect density of stretched monolayer graphene membranes. Carbon, 15(2), 233-240. (Q1, IF=9.594)
[6] Li, T. T., Hu, K. M., Ma, X., Zhang, W. M., Yin, J., Jiang, X. S. (*) (2020). Hierarchical 3D Patterns with Dynamic Wrinkles Produced by a Photocontrolled Diels-Alder Reaction on the Surface. Advanced Materials, 32(7), 1906712. (Q1, IF=30.849)
[7] Hu, K. M., Zhang, W. M. (*), Shi, X., Yan, H., Peng, Z. K., Meng, G. (2016). Adsorption-induced surface effects on the dynamical characteristics of micromechanical resonant sensors for in situ real-time detection. ASME Journal of Applied Mechanics, 83(8), 081009.
[8] Hu, K. M., Zhang, W. M. (*), Dong, X. J., Peng, Z. K., Meng, G. (2015). Scale effect on tension-induced intermodal coupling in nanomechanical resonators. ASME Journal of Vibration and Acoustics, 137(2), 021008.
[9] Hu, K. M., Zhang, W. M. (*), Peng, Z. K., Meng, G. (2016). Transverse vibrations of mixed-mode cracked nanobeams with surface effect. ASME Journal of Vibration and Acoustics, 138(1), 011020.
[10] Hu, K. M., Zhang, W. M. (*), Zhong, Z. Y., Peng, Z. K., Meng, G. (2014). Effect of surface layer thickness on buckling and vibration of nonlocal nanowires. Physics Letters A, 378(7-8), 650-654.
[11] Hu, K. M., Zhang, W. M. (*), Yan, H., Peng, Z. K., Meng, G. (2019). Nonlinear pull-in instability of suspended graphene-based sensors. EPL (Europhysics Letters), 125(2), 20011.
[12] Hu, K.M., Peng, B., Li, X. Y., Xin, Y. H., Bai, X., Li, L., Zhang W.M. (*) (2020) Resonant nano- electromechanical systems from 2D materials. EPL (Europhysics Letters), 131, 58001. (特邀综述)
[13] Zhang, W. M. (*), Hu, K. M., Yang, B., Peng, Z. K., Meng, G. (2016). Effects of surface relaxation and reconstruction on the vibration characteristics of nanobeams. Journal of Physics D: Applied Physics, 49(16), 165304.
[14] Zhang, W. M. (*), Hu, K. M., Peng, Z. K., Meng, G. (2015). Tunable micro-and nanomechanical resonators. Sensors, 15(10), 26478-26566.
[15] Peng, B., Hu, K. M., Shao, L., Yan, H., Li, L., Wei, X., Zhang, W. M. (*) (2019). A Sensitivity Tunable Accelerometer Based on Series-Parallel Electromechanically Coupled Resonators Using Mode Localization. IEEE Journal of Microelectromechanical Systems, 29(1), 3-13.
[16] Li, Z. K., Zhao, L. B. (*), Li, J., Y. H., Xu, T. Z., Liu, Z. C., Luo, G. X., Zhang, S. M., Hu, K.M., Tyler, H., Shahid, S.; Lu, D. J., Zhang, W. M. (*), Jiang, Z. D. (2020). Nonlinear behavior analysis of electrostatically actuated multilayer anisotropic microplates with residual stress. Composite Structures, 112964. (IF=5.138)
[17] Li, L., Zhang, W. M. (*), Wang, J., Hu, K.M., Peng, B., Shao, M. (2020). Bifurcation behavior for mass detection in nonlinear electrostatically coupled resonators. International Journal of Non-Linear Mechanics, 119, 103366.
[18] Zhang, W. M. (*), Yan, H., Jiang, H. M., Hu, K. M., Peng, Z. K., Meng, G. (2016). Dynamics of suspended microchannel resonators conveying opposite internal fluid flow: Stability, frequency shift and energy dissipation. Journal of Sound and Vibration, 368, 103-120.
[19] Yan, H., Zhang, W. M. (*), Jiang, H. M., Hu, K. M., Peng, Z. K., Meng, G. (2016). Dynamical characteristics of fluid-conveying microbeams actuated by electrostatic force. Microfluidics and Nanofluidics, 20(10), 137.
[20] Yan, H., Zhang, W. M. (*), Jiang, H. M., Hu, K. M. (2017). Pull-in effect of suspended microchannel resonator sensor subjected to electrostatic actuation. Sensors, 17(1), 114.
[21] Yan, H., Zhang, W. M. (*), Hu, K. M., Liu, Y., Meng, G. (2013). Investigation on characteristics of flow in microchannels with random surface roughness. Acta Physic Sinica, 62(17), 174701.
[22] Yan, H., Zhang, W. M. (*), Jiang, H. M., Hu, K. M., Hong, F. J., Peng, Z. K., Meng, G. (2017). A measurement criterion for accurate mass detection using vibrating suspended microchannel resonators. Journal of Sound and Vibration, 403, 1-20.
[23] Zou, H. X., Zhang, W. M. (*), Li, W. B., Hu, K. M., Wei, K. X., Peng, Z. K., Meng, G. (2017). A broadband compressive-mode vibration energy harvester enhanced by magnetic force intervention approach. Applied Physics Letters, 110(16), 163904.
[24] Yan, H., Zhang, W. M. (*), Jiang, H. M., Hu, K. M., Peng, Z. K., Meng, G. (2019). Relative vibration of suspended particles with respect to microchannel resonators and its effect on the mass measurement. ASME Journal of Vibration and Acoustics, 141(4), 041005.
[25] Zou, H. X., Zhang, W. M. (*), Li, W. B., Wei, K. X., Hu, K. M., Peng, Z. K., Meng, G. (2018). Magnetically coupled flextensional transducer for wideband vibration energy harvesting: design, modeling and experiments. Journal of Sound and Vibration, 416, 55-79.
中文论文:
[1] 周泽宇, 胡开明, 屠尔琪, 等. 车载环境下 MEMS 微镜长期可靠性及控制方法[J]. 动力学与控制学报, 2024, 22(2).
[2] 邹衡, 胡开明 (*), 邓心陆, 张文明, 孟光. 尺度效应下太赫兹非局部二维纳米薄膜结构涟漪动力学建模方法. 动力学与控制学报, 2024, 22(10): 67~76.
[3] 胡开明(*),李成,刘汝盟. 微纳尺度结构动力学专刊序. 动力学与控制学报, 2024, 22(10):1-4.
会议论文:
[1] Xin, Y. H., Hu, K. M., Li, X. Y., Tu, E. Q., & Zhang, W. M. (2021, April). A Flexible Mechanical Composite Micro-Grating Tailored By One-Dimensional Ordered Wrinkle Patterns. In 2021 IEEE 16th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS) (pp. 433-436). IEEE.
[2] Li, X. Y., Hu, K. M., Xin, Y. H., Tu, E. Q., & Zhang, W. M. (2021, April). Pressure Induced Transition from Wrinkling to Period-Doubling Instability in Flexible Tactile Sensors. In 2021 IEEE 16th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS) (pp. 1605-1608). IEEE.
[3] Hu, K. M., Li, X. Y., Xin, Y. H., Tu, E. Q., & Zhang, W. M. (2021, April). A Novel Low-Temperature Post-Curing Transfer Method Of Graphene Wrinkling Surface For Strain Engineering. In 2021 IEEE 16th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS) (pp. 1432-1435). IEEE.
[1] Hu, K. M. (*), Zhou, W. L., Jiang, X. S., Zhang, W. M. (2020). A Novel Fabrication Method of Graphene Wrinkle-Induced Superhydrophobic Surface for Flexible Micro/Nano Sensors. 2020 IEEE 33rd International Conference on Micro Electro Mechanical Systems (MEMS) (pp. 901-904). IEEE. (MEMS领域顶级会议)
[2] Hu, K. M. (*), Bai, K. C., Yan, H., Peng, B., Zhang, W. M. (2019). Effect of Built-in Stresses on Defects of Graphene Based Gas Sensors. In 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII) (pp. 2388-2391). IEEE. (MEMS领域顶级会议)
[3] Hu, K. M., Peng, B., Yan, H., Zhang, W. M. (*), Xue, Z. Y., Di, Z. F., Sun, Y. T. (2018). Tension-Induced Raman Spectrum Enhanced Phenomena of Graphene Membrane. ASME 2018 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers Digital Collection (p. V004T08A016). (交大A类会议, ASME会议)
[4] Hu, K. M. (*), Zhou, L. W., Li X.Y., Xin, Y. H., Bai, X. R., Jiang, X. S., Zhang W. M. (2020). Light-programmable functional surface by 2D wrinkling patterns [C]. CSMNT2020, Harbin. (国际会议)
[5] Hu, K. M. (*), Zhang W. M. (2019). A novel fabrication method of hierarchical graphene wrinkles in PMMA-PDMS bilayer system [C]. CSMNT2019, Wuhan. (国际会议)
[6] Hu, K. M., Zhang W. M. (*) (2014). Scale effect on modal interactions between mechanical modes in nanoresonators [C]. The 4th international conference on dynamics, vibration and control, Shanghai. (国际会议)
[7] Hu, K. M., Zhang W. M. (*) (2017). Nonlinear pull-in behaviors of suspended graphene sensors [C]. CSMNT2017, Dalian. (国际会议)
[8] 胡开明,张文明 (*) (2015). 表面吸附作用下纳米谐振器的非线性参激振动研究 [C]. 第十五届全国非线性振动暨第十二届全国非线性动力学和运动稳定性学术会议,长沙.
[9] 胡开明,张文明 (*) (2017). 分子吸附作用下悬浮式多层石墨烯的非线性吸合动力学特征 [C]. 2017中国力学大会,北京.
[10] 胡开明 (*), 张文明 (2019). 微纳器件的褶皱图案转移制备工艺与力学性能表征方法 [C].第四届微纳制造与微纳机器人技术青年科学家论坛,哈尔滨. 【特邀报告】