Work experience

*since 2022.12,      Shanghai Jiao Tong University, Associate Professor

*2018.12-2022.12, CNRS UMR8520 IEMN (France), Postdoc (Collaborators: Michael Baudoin, Jean-Louis Thomas)

*12/2016-04/2018, Washington State University (U.S.A.), Visiting scholar (Collaborators: Philip L. Marston)

Education

*09/2013-09/2018, Huazhong University of Science and  Technology, Ph.D.

*09/2009-09/2013, Huazhong University of Science and  Technology, Bachelor

*Physical Acoustics

*Ocean Acoustics

*Acoustical tweezers

• Editorial Board Member for Sound & Vibration

• Guest Associate Editor for Frontiers in Physics

• Early career editor for Nanotechnology and Precision Engineering

• Member of the Acoustical Society of America since 2022 (Associate Member since 2017)

• Member of the Acoustical Society of China since 2022 (Student Member since 2017)

• Member of IEEE UFFC, 2019, 2021

• More than 70 communications in peer-reviewed journals including

• Physics (Phy. Rev. Lett., Phy. Rev. E, Phy. Rev. Applied, Phy. Rev. Fluids, Phy. Rev. A, Proceedings of the Royal Society A, J. Appl. Phys., Appl. Phys. Lett., Physics of Fluids, 中国物理B, 物理学报, Geophysics);

• Acoustics (JASA, Ultrasonics, J. Sound Vib., Wave Motion, Shock Vib.);

• Modeling and computations (Applied Mathematics and Computation; Applied Mathematical Modelling; Engineering Analysis with Boundary Elements);

• Engineering (Ocean Enginnering; Communications Engineering; Micromachines; Sensors, Applied Science, Remote Sensing) …

• NSCF Excellent Young Scientists Fund Program which supports me to work as a principal investigator (PI) on the acoustic manipulation of microparticles and bubble clouds.

• I-SITE Talent project (142K€; Rank 1/5) which supports me to work as an invited postdoctoral fellow with Prof. Michaël BAUDOIN and conduct experiments on acoustical tweezers.

• During my Ph.D., I get involved with several projects including the topics of acoustics and engineering mechanics as a Student leader (+5) or participant (+2) with a total funding of 373K€.

• Invited talks at international/domestic conferences (The invited speaker is underlined)

• [B20] 龚志雄, 陈利伟，范军，基于空间相位信息的涡旋声呐主动探测原理和应用研究, 2024全国空间智能遥感与海洋测绘导航学术大会暨先进装备展览会—海洋信息技术论坛，December 21-22, 2024, Weihai (China).

• [B19] 龚志雄, 陈利伟，范军，基于空间相位特征的水下目标声探测技术, 西北工业大学海上无人平台技术学科论坛，November 24, 2024, Ningbo (China).

• [B17] 龚志雄, 单波束声镊操控微粒和微流体理论与技术, 同济大学物理科学与工程学院格物论坛，November 20, Shanghai (China).

• [B17] 龚志雄, 单波束声镊理论和技术：选择性操控及潜在细胞力学测量研究, , October 18-20, 2024, Shanghai (China).[会议日程]

• [B16] 龚志雄, 高精度选择性操控细胞的单波束声镊理论与技术, 2024年中国声学学会, September 19-22, 2024, Nanjing (China).

• [B15] 龚志雄, 单波束声镊操控微粒和微流体理论与技术, , September 18, 2024, Nanjing (China). [海报]

• [B14] Z. Gong, Acoustic vortex beams: From theory to applications, the 7th International Conference on Innovation & Cooperation in Naval Architecture & Marine Engineering (ICNAME2024), August 22-25, 2024, Harbin (China).

• [B13] Z. Gong, Acoustic manipulation of microparticles and microfluidics: Single beam incidence, Lund University, August 12, 2024, Lund (Sweden, Europe).

• [B12] Z龚志雄, 声涡旋高精度选择性操控细胞，中国福利会国际和平妇幼保健院, July 8, 2024, Shanghai (China).

• [B11] Z. Gong, Selective Trapping and Assembly at Cell-sized Level with Single-beam Acoustical Tweezers, PhotonIcs & Electromagnetics Research Symposium, April 21 - 25, 2024, Chengdu (China).

• [B10] 龚志雄, 声涡旋探测和操控水中目标/微粒, 华中科技大学船海学院“黄群讲坛”第十八期, April 2, 2024, Wuhan (China).

• [B9] Z. Gong, 2D and 3D trapping of particles and cells with single beam acoustic tweezers based on focused beams, Multidisciplinary Innovation Forum on Nanotechnology and Precision Engineering, October 22 - 23, 2023, Shenzhen (China).

• [B8] 龚志雄, 高次谐波影响下Eckart声流理论, 操控与传感学术研讨会, 中科院深圳先进技术研究院，October 23, 2023, Shenzhen (China).

• [B7] 龚志雄, 声涡旋散射、操控水中微粒和微流体, 水声技术重点实验室2023年海洋信息论坛，第十三期, 哈尔滨工程大学，September 22, 2023, Harbin (China).

• [B6] M. Baudion, R.A. Sahely, O. B. Matar, J.-C. Gerbedoen, Z. Gong, A. Sivery, N. Smagin, J.-L. Thomas, A. Vlandas, Single beam selective acoustical tweezers: from acoustical vortices to focused beams, The 75th Annual Meeting of the American Physical Society’s Division of Fluid Dynamics (APS DFD), 20-22 November 2022, Indiana (United States).

• [B5] Z. Gong, M. Baudion, Single focused-beam acoustical tweezers, The 182nd Meeting of the Acoustical Society of America, 23-27 May 2022, Denver (United States).

• [B4] M. Baudion, R.A. Sahely, Z. Gong, O.B. Matar, J.-C. Gerbedoen, N. Smagin, R. Chutani, Active holographic tweezers based on spiraling interdigitated transducers, The 182nd Meeting of the Acoustical Society of America, 23-27 May 2022, Denver (United States).

• [B3] Z. Gong, M. Baudion, Small particles assembly using cylindrical Bessel vortices in two dimension, 2019 International Congress on Ultrasonics, 3-6 September 2019, Bruges (Belgium).

• [B2] Z. Gong, W. Li, P.L. Marston, Potential of theoretical approach and T-matrix method for designing numerical acoustical tweezers toolbox, The 175th Meeting of the Acoustical Society of America, 7-11 May 2018, Minneapolis (United States).

• [B1] Z. Gong, W. Li, Y. Chai, Y. Zhao, Forward scattering of an acoustical Bessel beam by rigid structures using T-matrix method, The 7th International Conference on Computational Methods, 1-4 August 2016, Berkeley (United States).

  
  

  
  

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  Edited book

• [M1] Z. Gong, F. Cai, W. Li, T. Baasch, eds. (2023)., Ultrasound Micromanipulations and Ocean Acoustics: From Human Cells to Marine Structures, Lausanne: Frontiers Media SA. ISBN 978-2-8325-2976-8.
  

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  Journal papers (PDF files are attached with hyperlinks)

• 2025
  [29] S. Li, Z. Gong*, Reversing the acoustic contrast factor by tuning the medium can make focused beams trap cells in three dimensions, Phys. Fluids, 37, 012003 (2025). [DOI][PDF]

• 2024
  [28] D. Shen, et. al, Ionic Hydrogel-Based Moisture Electric Generators for Underwater Electronics, Adv. Sci., 2024, 2408954  (2024).  [DOI] [PDF].
  [27] S. Li, W. Cui, T. Baasch, B. Wang, Z. Gong*, Eckart streaming with nonlinear high-order harmonics: an example at gigahertz, Phys. Rev. Fluids, 9: 084201 (2024).  [DOI] [PDF]

• 2023
  [26] Z. Gong*, F. Cai*, W. Li*, T. Baasch*, Editorial: Ultrasound micromanipulations and ocean acoustics: from human cells to marine structures, Front. Phys., 11:1237899 (2023). [DOI] [PDF]

• 2022
  [25] Z. Gong, M. Baudoin*, Single beam acoustical tweezers based on focused beams: A numerical analysis of 2D and 3D trapping capabilities, Phys. Rev. Appl., 18: 044033 (2022). [DOI] [PDF]

• 2021
  [24] Z. Gong, M. Baudoin*, Three-Dimensional Trapping and Dynamic Axial Manipulation with Frequency-Tuned Spiraling Acoustical Tweezers: A Theoretical Study, Phys. Rev. Appl., 16: 024034 (2021). [DOI] [PDF]
  [23] Z. Gong*, M. Baudoin, Equivalence between angular spectrum-based and multipole expansion-based formulas of the acoustic radiation force and torque, J. Acoust. Soc. Am. 149(5): 3469-3482 (2021). [DOI] [PDF] [Collections]
  [22] Q. Wang, A. Riaud*, J. Zhou, Z. Gong, M. Baudoin*, Acoustic radiation force on small spheres due to transient acoustic fields, Phys. Rev. Appl., 15: 044034 (2021). [DOI] [PDF]

• 2020
  [21] Z. Gong, M. Baudoin*, Three-dimensional trapping and assembly of small particles with synchronized spherical acoustical vortices, Phys. Rev. Appl., 14: 064002 (2020). [DOI] [PDF]
  [20] Z. Gong*, M. Baudoin, Acoustic radiation torque on a particle in a fluid: an angular spectrum based compact expression, J. Acoust. Soc. Am., 148(5): 3131-3140 (2020). [DOI] [PDF]
  [19] M. Baudoin*, J.-L. Thomas, R.A. Sahely, J.C. Gerbedoen, Z. Gong, A. Sivery, O. Bou Matar, N. Smagin, P. Favreau, A. Vlandas*, Spatialy selective manipulation of cells with single beam acoustical tweezers, Nature Commu., 11: 4244 (2020). [DOI] [PDF] [News] [Codes]

  [18] Y. Chai*, Z. Gong, Wei Li, Y. Zhang*, Analysis of transient wave propagation in inhomogeneous media using edge-based gradient smoothing technique and bathe time integration method, Eng. Anal. Bound. Elem., 120: 211–222 (2020). [DOI] [PDF]

• 2019
  [17] Z. Gong, M. Baudoin*, Particle assembly with synchronized acoustical tweezers, Phys. Rev. Appl., 12: 024045 (2019). [DOI] [PDF]
  [16] Z. Gong, P.L. Marston, W. Li*, T-matrix evaluation of three-dimensional acoustic radiation forces on nonspherical objects in Bessel beams with arbitrary order and location, Phys. Rev. E, 99: 063004 (2019). [DOI] [PDF]
  [15] Z. Gong, P.L. Marston, W. Li*, Reversals of Acoustic Radiation Torque in Bessel Beams Using Theoretical and Numerical Implementations in Three Dimensions, Phys. Rev. Appl., 11: 064022 (2019). [DOI] [PDF]
  [14] W. Li, Q. Gui, Z. Gong*, Resonance scattering of an arbitrary Bessel beam by a spherical object, IEEE UFFC, 66: 1364-1372 (2019). [DOI] [PDF]

• 2018
  [13] Y. Chai, W. Li*, T. Li, Q. Zhang, Z. Gong, Application of smoothed finite element method to two-dimensional exterior problems of acoustic radiation. Int. J. Comp. Methods, 15: 1850029 (2018). [DOI] [PDF]

• 2017
  [12] W. Li, Y. Chai, Z. Gong*, P.L. Marston, Analysis of forward scattering of an acoustical zeroth-order Bessel beam from rigid complicated (nonspherical) structures, J. Quant. Spectrosc. Radiat. Transf., 200: 146-162 (2017). [DOI] [PDF]
  [11] Z. Gong, P.L. Marston, W. Li*, Y. Chai, Multipole expansion of acoustical Bessel beams with arbitrary order and location, J. Acoust. Soc. Am., 141: EL574-578 (2017). [DOI] [PDF] 
  [10] Z. Gong, W. Li*, Y. Chai, Y. Zhao, F.G. Mitri, T-matrix method for acoustical Bessel beam scattering from a rigid finite cylinder with spheroidal endcaps, Ocean Eng., 129: 507-519 (2017). [DOI] [PDF]
  [09] Y. Chai, Z. Gong, W. Li*, T. Li, Q. Zhang, A smoothed finite element method for exterior Helmholtz equation in two dimensions, Eng. Anal. Bound. Elem., 84: 237–252 (2017). [DOI] [PDF]
  [08] Y. Chai, W. Li*, G. Liu, Z. Gong, T. Li, A superconvergent alpha finite element method (SαFEM) for static and free vibration analysis of shell structures, Comput. Struct., 179: 27-47 (2017). [DOI] [PDF]
  [07] W. Li, Z. Gong, Y. Chai*, C. Cheng, T. Li, Q. Zhang, M. Wang, Hybrid gradient smoothing technique with discrete shear gap method for shell structures, Comput. Math. with Appl., 74: 1826-1855 (2017). [DOI] [PDF]

• 2016
  [06] Z. Gong, W. Li*, F.G. Mitri, Y. Chai, Y. Zhao, Arbitrary scattering of an acoustical Bessel beam by a rigid spheroid with large aspect-ratio, J. Sound Vib., 383: 233-247 (2016). [DOI] [PDF]
  [05] Z. Gong, Y. Chai, W. Li*, Coupled analysis of structural–acoustic problems using the cell-Based smoothed three-node Mindlin plate element, Int. J. Comp. Methods 13: 1640007 (2016). [DOI] [PDF]
  [04] Y. Chai, W. Li*, Z. Gong, T. Li, Hybrid smoothed finite element method for two-dimensional underwater acoustic scattering problems, Ocean Eng., 116: 129-141 (2016). [DOI] [PDF]
  [03] Y. Chai, W. Li*, T. Li, Z. Gong, X. You, Analysis of underwater acoustic scattering problems using stable node-based smoothed finite element method, Eng. Anal. Bound. Elem., 84: 237–252 (2016). [DOI] [PDF]
  [02] Y. Chai, W. Li*, Z. Gong, T. Li, Hybrid smoothed finite element method for two dimensional acoustic radiation problems, Appl. Acoust., 103: 90–101 (2016). [DOI] [PDF]

• 2015
  [01] W. Li, J. Li, Z. Gong*, Study on underwater acoustic scattering of a Bessel beam by rigid objects with arbitrary shapes, Acta. Phys. Sin., 64: 154305 (2015). [DOI] [PDF]

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  Conference papers (PDF files are attached with hyperlinks)

• 2024
  [04] X. Cheng, S. Li, Z. Gong*, J. Fan, Linear Modulation of the Resonant Frequency of a Double-bubble Model Below an Air-Water Interface, 2024 OES China Ocean Acoustics (COA) (2024). [DOI] [PDF]
  [03] X. Lu, Z. Gong*, Analytical Solution of Radiated Acoustic Field by Moving Monopolar and Dipolar Sources, 2024 OES China Ocean Acoustics (COA) (2024). [DOI][PDF]

• 2016
  [02] S. Liu, Z. Gong*, Y. Chai, W. Li, Underwater acoustic scattering of Bessel beam by spherical shell using T-matrix method, 2016 IEEE/OES China Ocean Acoustics (COA) (2016). [DOI] [PDF]

• 2015
  [01] Z. Gong, W. Li, Y. Chai, Acoustic resonance scattering of Bessel beam by elastic spheroids in water, Proceedings of ICCM2015, pp.1-9, (2015). [DOI][PDF]

• Undergraduate course: Intelligent Marine Vehicles Basics I (Signals and Systems)

• Graduate course: Theoretical acoustics

* Computational software package of three-dimensional acoustical radiation forces, see the attached codes in our NC paper [Codes]

* A correlation method of spatial phase information based on acoustic vortex, China Patent (Appl. No. 2024105829058)

* Device and method for focused beams with tunable focal length, China Patent (No. ZL 2024 1 0582905.8)

* 2024 Gold Award in China International College Students’ Innovation Competition 2024 (Shanghai Division)

* 2023  Young Scholar of Xiaomi Foundation

* 2020  ASA Early Career Meeting Support Award (By one of the main societies in acoustics)

* 2017  China Scholarship Council (CSC) (to support me as a visiting scholar moving outside of China)

* 2016  HUST Postgraduate Overseas Short-term Study Program Scholarship