2020 - 2022    香港理工大学，机械工程系，博士（双学位）

2016 - 2022    同济大学，物理科学与工程学院，博士（硕博连读）

2012 - 2016    同济大学，物理科学与工程学院，本科

2025 - 至今     36365线路检测中心no1，36365线路检测中心no1，长聘教轨副教授

2022 - 2025    香港城市大学，博士后

1. 噪声与振动控制：自适应及主动吸隔声结构设计，非线性声场中的低频宽带声波调控技术，水下减振降噪材料/结构设计。

2. 智能声学功能器件与应用：智能可调声学超构器件，新型声学传感、声能利用、声源辐射调控技术。

欢迎声学、机械、力学、物理学等专业的毕业生加盟从事硕士、博士和博士后研究。

学术期刊审稿人：Science Advances, Physical Review Letters/Applied/B/E, Applied Physics Letters, APL Materials, Communications Materials/Engineering, Thin-Walled Structures, Journal of Applied Physics, International Journal of Extreme Manufacturing, Virtual and Physical Prototyping, and Journal of the Acoustical Society of America.

以第一/通讯作者（含共同）在National Science Review，Science Bulletin, Nature Reviews Physics，Nature Communications, The Journal of the Acoustical Society of America等学术期刊发表论文21篇，其中5篇入选ESI高被引论文。

期刊论文（注：# 共同第一作者；* 通讯作者）

[35] W. Xiao, W. Kuang, S. Huang, S. Liang*, D.P. Tsai, S. Wang*, Acoustic Pancharatnam-Berry geometric phase for structured sound manipulation, Proceedings of the National Academy of Sciences of the United States of America (2026): 123.11, e2527851123. 

[34] N. Wang#, S. Huang#, Z. Zhou#, D.P. Tsai*, J. Zhu*, Y. Li*, Seven-octave ultrabroadband metamaterial absorbers via quality-factor-weighted mode density modulation, National Science Review (2025): 12.8, nwaf199. 

[33] S. Qu, M. Yang*, S. Huang, S. Liu, E. Dong, H.Y. Li, P. Sheng*, I.D. Abrahams*, N.X. Fang*, Generalized causality constraint based on duality symmetry reveals untapped potential of sound absorption, Nature Communications, 16.1 (2025): 10749.

[32] S. Huang, S. Xie, T. Liu, T. Hao, D.P. Tsai*, Y. Li*, J. Zhu*, Broadband Acoustic Purcell Effect from Collective Bound States in the Continuum, Advanced Science 12. 8 (2025): 2414627. 

[31] C. Song#, S. Huang#, H. Ma, S. Xie, D.P. Tsai*, J. Zhu*, Y. Li*, Self-powered frequency-selective acoustic sensor based on bound states in the continuum, Advanced Science 12.8 (2025): 2410379. 

[30] L. Huang#, S. Huang#, C. Shen#, S. Yves#, A. Pilipchuk#, X. Ni, S. Kim, Y. Chiang, D. Powell, J. Zhu, Y. Cheng, Y. Li, A. Sadreev, A. Alu, and A. Miroshnichenko, Acoustic Resonances in Non-Hermitian Open Systems, Nature Reviews Physics, 6 (2024): 11-27. (ESI highly cited paper)

[29] S. Huang#, S. Xie#, H. Gao, T. Hao, S. Zhang, T. Liu*, Y. Li*, J. Zhu*, Acoustic Purcell effect induced by quasibound state in the continuum. Fundamental Research, 4.1 (2024): 57-62.

[28] P. Qian#, S. Huang#, Y. Liu, N. Wang, and Y. Li*, Broadband sound absorbers via quality-factor modulation, International Journal of Mechanical Sciences, 271 (2024): 109130

[27] J. Cao#, S. Huang#, X. Yu*, and Y. Li*, Acoustic attenuation of side-branched Helmholtz resonator with embedded apertures in grazing flow ducts. Journal of Physics D: Applied Physics, 57 (2024): 205504.

[26] L. Huang, B. Jia, AS Pilipchuk, S. Huang, C. Shen, A.F. Sadreev*, Y. Li*, A.E. Miroshnichenko*, Merging bound states in the continuum in an open acoustic resonator. Science China Physics, Mechanics & Astronomy, 68.1 (2024), 214311.

[25] S. Huang, Y. Li*, J. Zhu*, D.P. Tsai*, Sound-Absorbing Materials. Physical Review Applied, 20 (2023): 010501.

[24] S. Liu#, S. Huang#, Z. Zhou, P. Qian, B. Jia, H. Ding, N. Wang, Y. Li*, and J. Chen, Observation of acoustic Friedrich-Wintgen bound state in the continuum with bridging near-field coupling, Physical Review Applied, 20 (2023): 044075.

[23] N. Wang, C. Zhou, S. Qiu, S. Huang*, B. Jia, S. Liu, J. Cao, Z. Zhou, H. Ding, J. Zhu*, Y. Li*, Meta-silencer with designable timbre. International Journal of Extreme Manufacturing, 5.2 (2023): 025501.

[22] B. Liu, S. Huang, B. Zheng, X. Chen, J. Zhao, X. Qi, Y. Li, S. Liu*, Tunable composite lattice structure for low-frequency and ultra-broadband underwater sound absorption. The Journal of the Acoustical Society of America 153.1 (2023): 415-422.

[21] B. Jia, L. Huang, A.S. Pilipchuk, S. Huang, C. Shen, A.F. Sadreev*, Y. Li*, A.E. Miroshnichenko*, Bound States in the Continuum Protected by Reduced Symmetry of Three-Dimensional Open Acoustic Resonators. Physical Review Applied 19.5 (2023): 054001.

[20] Z. Zhou#, S. Huang#, D. Li, J. Zhu*, Y. Li*, Broadband impedance modulation via non-local acoustic metamaterials. National Science Review, 9.8 (2022): nwab171. (ESI highly cited paper, NSR年度优秀论文)

[19] L. Huang, B. Jia, Y.K. Chiang, S. Huang, C. Shen, F. Deng, D.A. Powell*, Y. Li*, A.E. Miroshnichenko*, Topological supercavity resonances in the finite system. Advanced Science, 9.20 (2022): 2200257.

[18] C. Song, S. Huang, Z. Zhou, J. Zhang, B. Jia, C. Zhou, Y. Li*, Y. Pan*, Perfect acoustic absorption of Helmholtz resonators via tapered necks. Applied Physics Express 15.8 (2022): 084006.

[17]  H. Ding, N. Wang, S. Qiu, S. Huang*, Z. Zhou, C. Zhou, B. Jia, Y. Li*, Broadband acoustic meta-liner with metal foam approaching causality-governed minimal thickness. International Journal of Mechanical Sciences, 232 (2022): 107601.

[16] C. Xu, S. Huang, Z. Guo, H. Jiang, Y. Li*, Y. Wu*, H.  Chen*, Acoustic beam splitting and cloaking based on a compressibility-near-zero medium. Physical Review Applied 17.5 (2022): 054025.

[15] L. Huang, B. Jia, A.S. Pilipchuk, Y. Chiang, S. Huang, J. Li, C. Shen, E.N. Bulgakov, F. Deng, D.A. Powell, S.A. Cummer*,  Y. Li*, A.F. Sadreev*, A.E. Miroshnichenko*, General Framework of Bound States in the Continuum in an Open Acoustic Resonator. Physical Review Applied 18.5 (2022): 054021.

[14] H. Fan, H. Gao, S. An, Z. Gu, Y. Chen, S. Huang, S. Liang, J. Zhu*, T. Liu*, Z. Su*, Observation of non-Hermiticity-induced topological edge states in the continuum in a trimerized elastic lattice. Physical Review B 106.18 (2022): L180302.

[13] S. An, T. Liu, H. Fan, H. Gao, Z. Gu, S. Liang, S. Huang, Y. Zheng, Y. Cheng, L. Cheng*, J. Zhu*, Second-order elastic topological insulator with valley-selective corner states. International Journal of Mechanical Sciences 224 (2022): 107337.

[12] L. Huang#, Y. Chiang#, S. Huang#, C. Shen#, F. Deng, Y. Cheng, B. Jia, Y. Li*, D.A. Powell*, A.E. Miroshnichenko*, Sound trapping in an open resonator, Nature Communications, 12 (2021): 4819 

[11] D. Li#, S. Huang#, Y. Cheng, Y. Li*, Compact asymmetric sound absorber at the exceptional point, Science China-Physics Mechanics & Astronomy, 64 (2021): 244303.

[10] S. Huang, E. Zhou, Z. Huang, P. Lei, Z. Zhou, Y. Li*, Broadband sound attenuation by metaliner under grazing flow, Applied Physics Letters, 118 (2021): 063504.

[9] D. Kong#, S. Huang#, D. Li, C. Cai, Z. Zhou, B. Liu, G. Cao, X. Chen, Y. Li, S. Liu*, Low-frequency multi-order acoustic absorber based on spiral metasurface, The Journal of the Acoustical Society of America, 150 (2021): 12-18.

[8] S. Xie, X. Fang, P. Li, S. Huang, Y. Peng, Y. Shen, Y. Li*, X. Zhu*, Tunable double-band perfect absorbers via acoustic metasurfaces with nesting helical tracks. Chinese Physics Letters 37.5 (2020): 054301.

[7] S. Huang#, T. Liu#, Z. Zhou, X. Wang*, J. Zhu*, Y. Li*, Extreme Sound confinement from quasibound states in the continuum, Physical Review Applied, 14 (2020): 021001. (Letter)

[6] D. Li, S. Huang, F. Mo, X. Wang, Y. Li*, Low-frequency broadband absorbers based on coupling micro-perforated panel and space-curling chamber. Chinese Science Bulletin 65.15 (2020): 1420-1427.

[5] S. Huang#, Z. Zhou#, D. Li, T. Liu, X. Wang*, J. Zhu*, Y. Li*, Compact broadband acoustic sink with coherently coupled weak resonances, Science Bulletin, 65 (2020): 373-379. (ESI highly cited paper, Sci. Bull. 2021 Best Paper Award)

[4] S. Huang, X. Fang, X. Wang, B. Assouar, Q. Cheng*, Y. Li*, Acoustic perfect absorbers via Helmholtz resonators with embedded apertures, The Journal of the Acoustical Society of America, 145 (2019): 254-262. (ESI highly cited paper)

[3] S. Huang, X. Fang, X. Wang, B. Assouar, Q. Cheng, Y. Li*, Acoustic perfect absorbers via spiral metasurfaces with embedded apertures, Applied Physics Letters, 113 (2018): 233501. (ESI highly cited paper)

[2] S. Li, D. Mao, S. Huang, X. Wang*, Enhanced transmission loss in acoustic materials with micro-membranes. Applied Acoustics 130 (2018): 92-98.

[1] S. Huang, S. Li, X. Wang*, D. Mao*, Micro-perforated absorbers with incompletely partitioned cavities, Applied Acoustics, 126 (2017): 114-119.