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ENGLISH33678新甫京国际品牌官网
杰出人才
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教职员工
各系教员
力学与工程科学系
黄国良
教授、博士生导师
新奥讲席教授
电子邮箱:guohuang@pku.edu.cn
工作经历:
2024/06-至今 33678新甫京国际品牌力学与工程科学系,新奥讲席教授
2014-2024 密苏里大学(University of Missouri)机械工程和航空系,
副教授(2014),教授(2016)
Huber and Helen Croft Chair讲席教授(2019-2024)
2006-2013 阿肯色大学小石城分校 (University of Arkansas at Little Rock) 系统工程系
助理教授(2006),终身副教授(2014)
背景资料:
黄教授长期从事固体本构、波动力学、智能材料和结构及结构无损检测等领域研究。在弹性和声学超材料的动态均匀化以及负密度、负模量、各向异性密度、超阻尼, 智能超材料、拓扑动力学、主动奇异力学、设计超材料的机器学习等固体超常性质方面进行了一系列的理论研究,并开展了其在波动控制和低频减振降噪领域在航空结构, 海洋工程和声学的工程应用探索。发表期刊论文170余篇,谷歌引用12800余次, H-index=63,是Stanford全球前2%学者。撰写力学超材料英文专著1本,现任国际波动期刊Wave Motion副主编,ASME Journal of Vibration and Acoustics 副主编,Frontiers in Physics专业主编,美国机械工程师协会振动,噪音和声子专业委员会主席,国际国际光学与光子学学会会士, 国际高等材料学会会士。作为项目负责人完成了美国国家自然基金(NSF)重大项目、陆军(Army)重大项目、空军(AFOSR)、海军(ONR)以及能源部(DOE)重点项目,并任八个国家和地区的科学基金评审人(澳大利亚、新加坡、英国、西班牙、德国、香港、卡塔尔、印度)。
招聘信息:
本课题组常年招收本科生、硕士/博士研究生、博士后。
主要研究方向:
智能超材料与人工智能设计、主动超材料力学行为控制、波动控制、航空结构的低频减振降噪、医疗超声学传感设计和治疗、海洋噪声控制、 拓扑力学。
部分论文列表:

1.     Y. Wang, W. Qian, Y. Tian, G.L. Huang, (2024) “Non-Hermitian wave dynamics of odd plates: Microstructure design and theoretical modelling”, Journal of the Mechanics and Physics of Solids, 182, 105462.

2.     Y. Tian, J.J. Chen, Z. Yan, J.W. Xie, X.N. Jiang, G. Li, G.L. Huang, (2024) “Numerical modelling of ultrasound-triggered microneedle-mediated delivery of drug particles into bacterial biofilms”, Ultrasonics, 141, 107344.

3.     Y. Chen, H. Qian, J. Pappas, G.L. Huang, X.Y. Dong, (2024) “Laser direct fabrication and characterization of 3d lattice structures using continuous carbon fiber thermoset composites”, The International Journal of Advanced Manufacturing Technology, 133: 5585.

4.     J.J. Chen, X.B Miao, H.B. Ma, J.B. Hopkins, G.L. Huang, (2024) “Intelligent mechanical metamaterials towards learning static and dynamic behaviors”, Materials & Design 244 (2024) 11309.

5.     B. Zheng, Y. Xie, S. Xu, A. Meng, S. Wang, Y. Wu, S. Yang, C. Wan, G.L. Huang, J.M. Tour, J. Lin (2024), Programmed multimaterial assembly by synergized 3D printing and freeform laser induction, Nature Communications, 15:4541.

6.     J Christensen, M.R. Haberman, A. Srivastava, G.L. Huang, G. Shmuel, (2024) “Perspective on Non-Hermitian Elastodynamics”, arXiv preprint arXiv:2407.02513.

7.     R. Nunez, S. Mohammadian, T.H. Rupam, R. Mohammed, G.L. Huang, H. Ma (2024) “Machine learning for modeling oscillating heat pipes: a review”, Journal of Thermal Science and Engineering Applications, 1-20.

8.     Q. Wu, H.H. Qian, X. Xu, S.Y. Wang, R. Zhu, H. Ma, Z. Yan, Y. Y. Chen, and G. L. Huang (2023) “Active metamaterials for realizing odd mass density”, Proceedings of the National Academy of Sciences, 120 (21) e2209829120.

9.     Y. C. Wu, C. H. Su, S. Y. Wang, B. Zheng, A. Mahjoubnia, K. Sattari, H. W. Zhang, J. Meister, G.L. Huang, and J. Lin (2023) “A photocured bio-based shape memory thermoplastics for reversible wet adhesion”, Chemical Engineering Journal 470, 144226.

10.  J. Chen, Y. Zhang, Y. Yu, Y. Zhai, H. Nguyen, S. Tracy, X.M. Zhou, G.L. Huang, (2023) “Broadband acoustic attenuation in microperforated meta-shells with ventilation”, Applied Physics Letters, 122, 2311701.

11.  Y. LingG.G. ZhaoY. SuQ. WuY. XuZ. ChenB. ArendsO. EmejeG.L. HuangJ. XieZ. Yan, (2023) “Skin-Inspired Porous Mesh Bioelectronics with Built-In Multifunctionality for Concurrently Monitoring Heart Electrical and Mechanical Functions”, Advanced Functional Materials, 2302681.

12.  X.B. Miao, H.W. Dong, S.D. Zhao, S.W. Fan, G.L. Huang, C. Shen, Y.S. Wang (2023) “Deep-learning-aided metasurface design for megapixel acoustic hologram”, Applied Physics Reviews, 10:101.

13.  Y. Xu and G.L. Huang, (2023) “Modal Sensitivity Analysis of Acoustic Metamaterials for Structural Damage Detection”, International Journal of Mechanical Science, 259: 108571.

14.  Y. Wu, C. Su, S. Wang, B. Zheng, A. Mahjoubnia, K. Sattari, H. Zhang, J. Meister, G.L. Huang, J. Lin (2023) “A photocured Bio-based shape memory thermoplastics for reversible wet adhesion,” Chemical Engineering Journal, 144226.

15.  S. Wang, Z Hu, Q Wu, H Chen, E Prodan, R Zhu, G.L. Huang (2023) “Smart patterning for topological pumping of elastic surface waves”, Science Advance, 9, eadh431.

16.  W. J. Zhou, S. Y. Wang, Q. Wu, X. C. Xu, X. J. Huang, G. L. Huang, Y. Liu, and Z. Fan (2023) “An inverse design paradigm of multi-functional elastic metasurface via data-driven machine learning”, Materials & Design, 226, 111560

17.  Q. Wu, H.H. Qian, Y. Y. Chen, and G. L. Huang (2023) “Dynamic phononic crystals with spatially and temporally modulated circuit networks”, Acta Mechanica Sinica, 39, 723007.

18.  Z. Hu, Z. Wei , K. Wang , Y. Chen , R. Zhu, G.L. Huang , G.K.Hu (2023) “Engineering Zero Modes in Transformable Mechanical Metamaterials: From Solid to Near-gaseous States” Nature Communications, 14 (1), 1266.

19.  S. Zhao, J.J. Chen, Z. Chang, G.L. Huang (2023) “Microstructure realization of a lattice-based polar solid for arbitrary elastic waveguiding”, Journal of the Mechanics and Physics of Solids, 173:105226.

20.  Y. Xu, Y. Su, X. Xu, B. Arends, G. Zhao, D.N. Ackerman, H. Huang, St. Reid, J.L. Santarpia, C. Kim, Z. Chen, S. Mahmoud, Y. Ling, A. Brown, Q. Chen, G.L. Huang, J.W. Xie, Zheng Yan, (2023) “Porous Liquid-Metal-Elastomer Composites with High Leakage Resistance and Antimicrobial Property for Skin-Interfaced Bioelectronics” Science Advances, 50:1804327.

21.  H. Chen, S.Y. Wang, X,P. Li and G.L. Huang (2022) “Two-dimensional microtwist modeling of topological polarization in hinged Kagome lattices and its experimental validation”, International Journal of Solids and Structures, 254-255: 111891.

22.  Q. Wu, P. Shivashankar, X. C. Xu, Y. Y. Chen, and G. L. Huang (2022) “Engineering nonreciprocal wave dispersion in a nonlocal micropolar metabeam”, Journal of Composite Materials, https://doi.org/10.1177/00219983221140562. 

23.  Y. C. Wu, P. A. Advincula, O. Giraldo-Londono, Y. K. Yu, Y. C. Xie, Z. R. Chen, G. L. Huang, J. M. Tour, and J. Lin (2022) “Sustainable 3D Printing of Recyclable Biocomposite Empowered by Flash Graphene”, ACS Nano, 08157.

24.  Q. Wu, X. D. Zhang, P. Shivashankar, Y. Y. Chen and G. L. Huang (2022) “Independent Flexural Wave Frequency Conversion by a Linear Active Metalayer”, Phys. Rev. Lett. 128, 244301.

25.  J.J. Chen, Y.Y. Chen, X.C. Xu,, W.J. Zhou and  G. L. Huang, (2022) "Physical-guided machine learning for multifunctional wave control in active metabeams", Extreme Mechanics Letters, 55:101827.

26.  Y. Z. Wang, Z. Y. Li, M. V. Golub, G. L. Huang, W. Q. Chen, and C. Z. Zhang (2022) "Interfacial delamination-induced unidirectional propagation of guided waves in multilayered media", Mathematics and Mechanics of Solids 10812865221092680.

27.  S. Yang, Y. Ling, Q. Wu, H. Zhang, Z. Yan, G.L. Huang, J. Lin and C. Wan (2022) “Lignin-derived Porous Graphene for Wearable and Ultrasensitive Strain Sensors”, Journal of Materials Chemistry C, 10:11730.

28.  Q. Wu and G.L. Huang (2022) “Omnidirectional wave polarization manipulation in isotropic polar solids”, International Journal of Solids and Structures, 141, 1111481.

29.  Y. Z. Wang, Y. F. Zheng, M. V. Golub, S. I. Fomenko, G. L. Huang, W. Q. Chen, and C. Z. Zhang (2022) "Electro-mechanical demultiplexer enabled by tunable electric circuits", Extreme Mechanics Letters 51, 101610.

30.  X.C. Xu, Q. Wu, Y.K. Pang, Y. Cao, Y. Fang, Y. Fang, G.L. Huang and C. Cao (2021), “Multifunctional Metamaterials Enabled by Energy Harvesting and Vibration Reduction”, Advanced Functional Materials, 2107896.

31.  Y. Cao, M. Derakhshani, Y. Fang, G.L. Huang and C. Cao (2021), “Bistable Structures for Advanced Functional Systems”, Advanced Functional Materials, 2106231.

32.  Y. Chen, X. Li, C. Scheiber, V. Vitelli and G.L. Huang (2021) “Realization of active metamaterials with odd micropolar elasticity,” Nature Communications, 12: 5935.

33.  H. Chen, H.K. Zhang, Q. Wu, Y. Huang, H. Nguyen, E. Prodan, X.M. Zhou and G.L. Huang (2021) “Creating synthetic spaces for higher-order topological sound transport,” Nature Communications, 12: 5028.

34.  R.Y. Xia, H. Nassar, H. Chen, Z. Li and G.L. Huang (2021) “Microtwist homogenization of three-dimensional Pyrochlore lattices on zero modes and mechanical polarization,” Journal of the Mechanics and Physics of Solids, 104564.

35.  Y. Su, X.C. Xu, J. Shi and G.L. Huang (2021) “A 3D mechanism-driven Hexagonal metamaterial: evaluation of auxetic behavior,” International Journal of Mechanical Sciences, 209: 106699.

36.  Z.G. Liu, J.L. Zhang, Y.S. Wang and G.L. Huang (2021) “Analytical solutions of solitary waves and their collision stability in a pre-compressed one-dimensional granular,” Nonlinear Dynamics, 21: 06534.

37.  H. Nguyen, Q. Wu, H. Chen, J.J. Chen, Y.K. Yu, S. Tracy and G.L. Huang (2021). “A Broadband Acoustic Panel based on Double-layer Membrane-type Metamaterials,” Applied Physics Letters, 118: 184101.

38.  Q. Wu, H. Chen, H. Nassar, and G.L. Huang (2021) “Non-reciprocal Rayleigh wave propagation in space-time modulated surface,” Journal of the Mechanics and Physics of Solids, 146: 104196.

39.  X. Li, Y.Y. Chen, R. Zhu and G.L. Huang (2021). “An active meta-layer for optimal flexural wave absorption and cloaking,” Mechanical Systems and Signal Processing, 149: 107324.

40.  X.D. Zhang, H.Y. Yu, Z.C. He, Y.Y. Chen, G.L. Huang and G. Wang (2021). “A Metamaterial Beam with Inverse Nonlinearity for Broadband Micro-Vibration Attenuation,” Mechanical Systems and Signal Processing, 159: 107826.

41.  T.F. Ma, Y. Chen, H. Chen, Y. Zheng, G.L. Huang, J. Wang and J. Du (2021). “Tuning characteristics of a metamaterial beam with lateral-electric-field piezoelectric shunting,” Journal of Sound and Vibration, 491: 115738.

42.  H. Nguyen, Q. Wu, H. Chen, J.J. Chen, Y.K. Yu, S. Tracy and G.L. Huang (2021). “A Fano-based Acoustic Metamaterial for Ultra-broadband Sound Barrier,” Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 477:20210024.

43.  Y. Y. Chen, H. Nassar, and G. L. Huang (2021) "Discrete transformation elasticity: An approach to design lattice-based polar metamaterials", International Journal of Engineering Science 168, 103562.

44.  X.C. Xu, Q. Wu, H. Chen, H. Nassar, Y.Y. Chen, A. Norris, M. Haberman and G.L. Huang (2020). “Physical observation of a robust dynamic pumping in waveguides with dynamic boundary,” Physical Review Letters, 125: 253901.

45.  H. Nassar, H. Chen and G.L. Huang (2020) “Microtwist elasticity: A continuum approach to zero modes and topological polarization in Kagome lattices,” Journal of the Mechanics and Physics of Solids, 144:104107.

46.  H. Nguyen, Q. Wu, S. Tracy and G.L. Huang (2020). “Broadband Acoustic Silencer with Ventilation based on Slit-type Helmholtz Resonators,” Applied Physical Letters, 117: 134103.

47.  X.C. Xu, C. Wang, W. Shou, Z.L. Du, Y.Y. Chen, B.C. Li, W. Matusik, H. Nassar, and G.L. Huang (2020). “Physical realization of elastic cloaking with a polar material,” Physical Review Letters, 124: 114301.

48.  H. Nassar, B. Yousefzadeh, R. Fleury, M. Ruzzene, A. Alu, C. Daraio, A. N. Norris, G.L. Huang, and M. R. Haberman (2020), “Nonreciprocity in acoustic and elastic materials,” Nature Reviews Materials, 5: 667-685.

49.  Y.Y. Chen, X.P. Li, G.K. Hu, M.R. Haberman and G.L. Huang (2020) “An active mechanical Willis meta-layer with asymmetric polarizabilities,” Nature Communications, 11:3681.

50.  Y Xu, G Zhao, L Zhu, Q Fei, Z Zhang, Z Chen, F An, Y Chen, Y Ling, P Guo, S. Ding, G.L. Huang, P.Y. Chen, Q. Cao and Z. Yan (2020),  “Pencil–paper on-skin electronics”, Proceedings of the National Academy of Sciences, 2008422117.

51.  Q. Wu, H. Chen, X.P. Li and G.L. Huang (2020) “Observation of in-plane second order topologically protected states in elastic Kagome lattices,” Physical Review Applied, 14:014084.

52.  X.P. Li, Y.Y. Chen, and G.L. Huang (2020) “Shaping elastic wave mode conversion with a piezoelectric-based programmable meta-boundary,” Extreme Mechanics Letters, 39: 100837.

53.  Y. Zhao, X. Zhou and G.L. Huang (2020) “Non-reciprocal Rayleigh Waves in elastic gyroscopic medium,” Journal of the Mechanics and Physics of Solids, 143: 104065.

54.  K. Yu, H. Du, A. Xin, K. H. Lee, Z. Feng, S. F. Masri, Y. Chen, G. L. Huang and Q. M. Wang (2020) “Healable, memorizable, and transformable lattice structures made of stiff polymers”, NPG Asia Materials 12:26.

55.  L. Feng, J. Chen, H. Huang, S. Huo, Z. Tan, X. Han, G.L. Huang (2020) “High-Efficiency Elastic Wave Rectifier in One-Dimensional Linear Magnetoelastic Phononic Crystal Slabs by an External Magnetostatic Field,” Physical Review Applied, 13 (6), 064042.

56.  H. Nassar, Y.Y. Chen, and G.L. Huang (2020) “Polar metamaterials: a new outlook on resonance for cloaking application,” Physical Review Letters, 124: 084301.

57.  Y. Ling, W. Pang, X. Li, S. Goswami, Z. Xu, D. Stroman, Y. Liu, Q. Fei, Y. Xu, G. Zhao, B. Sun, J. Xie, G.L. Huang, Y. Zhang, Z. Yan (2020) “Laser-Induced Graphene for Electrothermally Controlled, Mechanically Guided, 3D Assembly and Human‐Soft Actuators Interaction”, Advanced Materials, 1908475.

58.  M. Yuan, X. Sheng, Z. Cao, Z. Pang and G.L. Huang (2020) “Joint acoustic energy harvesting and noise suppression using deep-subwavelength acoustic device”, Smart Materials and Structures, 29: 035012.

59.  Z. Du, H. Chen, and G.L. Huang (2020) “Optimal quantum valley Hall insulators by rationally engineering Berry curvature and band structure,” Journal of the Mechanics and Physics of Solids, 135: 103784.

60.  Y. Xu, B. Sun, Y. Ling, Q. Fei, Z. Chen, X. Li, P. Guo, N. Jeon, S. Goswami, Y. Liao, S. Ding, Q. Yu, J. Lin, G.L. Huang, Z. Yan (2020), “Multiscale porous elastomer substrates for multifunctional on-skin electronics with passive-cooling capabilities”, Proceedings of the National Academy of Sciences, 117: 205-213.

61.  J. Zhou, H.Z. Huang, M.V. Barnhart, G.L. Huang, Y.F. Li (2020). “A novel non-linear cumulative fatigue damage model based on the degradation of material memory,” International Journal of Damage Mechanics 29 (4), 610-625.

62.  H. Deng, X. Xu, C. Zhang, J.W. Su, G.L. Huang, J. Lin (2020), “Deterministic self-morphing of soft-stiff hybridized polymeric films for acoustic metamaterials”, ACS Applied Materials & Interfaces, 12: 13378-13385.

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