雷君君
1.个人简介
雷君君,湖南衡阳人,中南大学学士,英国南安普顿大学博士、Doctoral PrizeResearch Fellow(于2015年荣获英国EPSRC Doctoral Prize),广东工业大学副教授、硕士生导师。目前主要从事声微流控理论、超声微纳操控等领域的研究;近年在LoC、PRAppl.、APL等国际学术期刊上发表了SCI论文20余篇,其中最高单篇被引100余次;主持在研国家自然科学基金青年项目、广东省自然科学基金面上项目、广州市基础与应用基础研究项目等多项基金项目,同时作为核心成员参与了数项英国EPSRC基金项目的研究。担任LoC、SNAB、APL、PoF、AMM、IEEE TUFFC、RSC Adv.、RoSI等国际学术期刊的审稿人。任中国医学装备协会超声分会超声换能器与材料专业委员会委员、中国声学学会会员。
指导学生情况:
(1)2018级硕士研究生程峰:获“2021年广东省优秀学生(研究生阶段)”、“2021年广东工业大学优秀毕业生”、“2020年研究生国家奖学金”等荣誉;
(2)2020级硕士研究生刘国添:获“2021年研究生国家奖学金”、入选“2021年广东工业大学研究生卓越应用型人才培养计划”等。
招生意向:
欢迎机械、物理、数学等相关专业的学生报考;尤其欢迎有流体力学、声学等基础的学生报考。
2.教育背景
2011/10-2015/12,南安普顿大学(英国),机械电子工程,博士
2010/09-2011/07,中南大学,机械工程,硕士
2006/09-2010/07,中南大学,微电子制造工程,学士
3.工作经历
2017/06-至今,广东工业大学机电工程学院,“青年百人”A类引进人才/副教授
2016/01-2017/01,University of Southampton,Faculty of Engineering and the Environment,Doctoral PrizeResearch Fellow
4.负责主要项目
[1].广东省自然科学基金面上项目,10万元,2021/01-2023/12,主持
[2].广州市基础与应用基础研究项目(博士青年科技人员类),5万元,2021/04-2023/03,主持
[3].国家自然科学基金青年项目,27万元,2019/01-2021/12,主持
[4].广东工业大学机电工程学院‘种子基金’,10万元,2019/01-2019/12,主持
[5].广东工业大学青年百人科研启动基金,20万元,2017/06-2022/06,主持
[6].EPSRC Doctoral Prize Fellowship,3.5万英镑,2016/01-2017/01,主持
5.主要期刊论文(*为通讯作者)
[1].Junjun Lei*, Gaokun Zheng, Zhen Yao and Zhigang Huang, Outer Acoustic Streaming Flow Driven by Asymmetric Acoustic Resonances,Micromachines, 13(1), 65, 2022.PDF
[2].Qin Lin, Feiyan Cai*,Junjun Lei, Qing-ying Luo, Fei Li, Jiaqian Wang, Xiangxiang Xia, Jinping Wang, Junhao Li and Hairong Zheng*,Numerical study of enhanced Rayleigh streaming in resonant cylindrical shells,Journal of Micromechanics and Microengineering, 31, 1004005,2021.PDF
[3].Guotian Liu,Junjun Lei*, Feng Cheng, Kemin Li, Xuanrong Ji, Zhigang Huang and Zhongning Guo, Ultrasonic Particle Manipulation in Glass Capillaries: A Concise Review,Micromachines, 12(8), 876, 2021.PDF
[4].Zhigang Huang, Luming Ge, Weixun Wei, Yu Deng, andJunjun Lei*, Multiphase lattice Boltzmann modeling of dielectrophoresis fractionation of soft particles,Physics of Fluids, 33, 063311, 2021.PDF
[5].Guannan Yang, Wei Lin, Haiqi Lai, Jin Tong,Junjun Lei, Maodan Yuan, Yu Zhang*and Chengqiang Cui*, Understanding the relationship between particle size and ultrasonic treatment during the synthesis of metal nanoparticles,Ultrasonics Sonochemistry, 73, 105497, 2021.PDF
[6].Junjun Lei*, Feng Cheng, Kemin Li, Guotian Liu, Yongjun Zhang, Zhongning Guo and Yongkang Zhang, Simultaneous imaging and manipulation of microparticles in horizontal and vertical planes of microchannels using a single objective lens,Applied Physics Letters, 117 (22), 224101, 2020.PDF
[7].Junjun Lei*, Feng Cheng, Guotian Liu, Kemin Li and Zhongning Guo,Dexterous formation of unconventional Chladni patterns using standing bulk acoustic waves,Applied Physics Letters, 117 (18), 184101, 2020.PDF
[8].Valerio Pereno,Junjun Lei, Dario Carugo and Eleanor Stride*, Microstreaming inside model cells induced by ultrasound and microbubbles,Langmuir, 36, 6388-6398, 2020.PDF
[9].Junjun Lei*, Feng Cheng, Kemin Li and Zhongning Guo, Numerical simulation of continuous separation of microparticles in two-stage acousto-microfluidic systems,Applied Mathematical Modelling, 83, 342-356, 2020.PDF
[10].Junjun Lei*, Feng Cheng and Kemin Li, Numerical Simulation of Boundary-Driven Acoustic Streaming in Microfluidic Channels with Circular Cross-Sections,Micromachines, 11 (3), 240, 2020.PDF
[11].Junjun Lei*, Feng Cheng, Kemin Li and Zhongning Guo, Two-dimensional concentration of microparticles using bulk acousto-microfluidics,Applied Physics Letters, 116 (3), 033104, 2020.PDF
[12].Junjun Lei*, Feng Cheng and Zhongning Guo, Standard and inverse transducer-plane streaming patterns in resonant acoustofluidic devices: Experiments and simulations,Applied Mathematical Modelling, 77, 456-468, 2020.PDF
[13].Fei Li, Xiangxiang Xia, Zhiting Deng,Junjun Lei, Yaxi Shen, Qin Lin, Wei Zhou, Long Meng, Junru Wu, Feiyan Cai*and Hairong Zheng*, Ultrafast Rayleigh-like streaming in a sub-wavelength slit between two phononic crystal plates,Journal of Applied Physics, 125 (13), 134903, 2019.PDF
[14].Junjun Lei*, Martyn Hill, Carlos Ponce de León Albarrán and Peter Glynne-Jones*, Effects of micron scale surface profiles on acoustic streaming,Microfluidics and Nanofluidics, 22 (12), 140, 2018.PDF
[15].Fei Li, Yang Xiao,Junjun Lei, Xiangxiang Xia, Wei Zhou, Long Meng, Lili Niu, Junru Wu, Jiangyu Li, Feiyan Cai*and Hairong Zheng*, Rapid acoustophoretic motion of microparticles manipulated by phononic crystals,Applied Physics Letters,113 (17), 173503, 2018.PDF
[16].Fei Li, Fei Yan, Zhiyi Chen,Junjun Lei, Jinsui Yu, Mian Chen, Wei Zhou, Long Meng, Lili Niu, Junru Wu, Jiangyu Li, Feiyan Cai*and Hairong Zheng*, Phononic crystal-enhanced near-boundary streaming for sonoporation,Applied Physics Letters,113 (8), 083701, 2018.PDF
[17].Junjun Lei*, Martyn Hill*and Peter Glynne-Jones*, Transducer-plane streaming patterns in thin-layer acoustofluidic devices,Physical Review Applied,8 (1), 014018, 2017.PDF
[18].Junjun Lei*, Formation of inverse Chladni patterns in liquids at microscale: roles of acoustic radiation and streaming-induced drag forces,Microfluidics and Nanofluidics,21 (3), 50, 2017.PDF
[19].Junjun Lei*, Peter Glynne-Jones and Martyn Hill, Comparing methods for the modelling of boundary-driven streaming in acoustofluidic devices,Microfluidics and Nanofluidics,21 (2), 23, 2017.PDF
[20].Junjun Lei, Peter Glynne-Jones and Martyn Hill*, Modal Rayleigh-like streaming in acoustofluidic devices,Physics of Fluids(1994-present), 28 (1), 012004, 2016.PDF
[21].Junjun Lei, Martyn Hill*and Peter Glynne-Jones, Numerical simulation of 3D boundary-driven acoustic streaming in microfluidic devices,Lab on a Chip, 14 (3), 532, 2014.PDF
[22].Dyan N Ankrett*, Dario Carugo,Junjun Lei, Peter Glynne-Jones, Paul A Townsend, Xunli Zhang and Martyn Hill, The effect of ultrasound-related stimuli on cell viability in microfluidic channels,Journal of nanobiotechnology,11 (1), 20, 2013.PDF
[23].Junjun Lei, Peter Glynne-Jones*and Martyn Hill, Acoustic streaming in the transducer plane in ultrasonic particle manipulation devices,Lab on a Chip,13 (11), 2133, 2013.PDF
6.主要会议论文/报告
[1].Junjun Lei et al., VARIATIONS OF ACOUSTIC RESONANCES IN CIRCULAR MICROFLUIDIC CHANNELS, ICSV27, Annual Congress of International Institute of Acoustics and Vibration (IIAV), 11-16 July 2021.
[2].Junjun Lei et al., DESIGN AND SIMULATION OF TWO-STAGE ACOUSTO-MICROFLUIDIC SYSTEMS FOR MICROPARTICLE SEPARATIONS, ICSV27, Annual Congress of International Institute of Acoustics and Vibration (IIAV), 11-16 July 2021.
[3].Junjun Lei et al., SIMULTANEOUS IMAGING OF THREE-DIMENSIONAL MICROPARTICLE ACOUSTOPHORESIS IN MICROCHANNELS, ICSV27, Annual Congress of International Institute of Acoustics and Vibration (IIAV), 11-16 July 2021.
[4].雷君君等,一种微观颗粒的二维超声聚集装置及其高效观测方法,全国声学大会,上海,2021.03.
[5].雷君君等,超声微观颗粒聚集与分离数值模拟,全国声学大会,深圳,2019.09.
[6].雷君君等,薄层声操控装置三维换能器平面声流模型,全国声学大会,北京,2018.11.
[7].Junjun Lei et al., Observation of inverse transducer-plane streaming patterns, 25th International Congress on Sound and Vibration, Hiroshima, Japan, 2018.07.
[8].Junjun Lei et al., Modal Rayleigh-like streaming in layered acoustofluidic particle manipulation devices, International Congress on Ultrasonics/Acoustofluidics 2015, Metz, France, 2015.05.
[9].Junjun Lei et al., Effects of surface profile on a boundary-driven acoustic streaming field, Acoustofluidics 2014, Prato, Italy, 2014.09.
[10].Junjun Lei et al., Effects of surface profile on a boundary-driven acoustic streaming field, 21st International Congress on Sound and Vibration, Beijing, China, 2014.07.
[11].Junjun Lei et al., Numerical simulation of 3D acoustophoretic motion of microparticles in an acoustofluidic device, Acoustofluidics 2013, Southampton, UK, 2013.09.
[12].Junjun Lei et al., Acoustic streaming in the transducer plane in resonant manipulation devices, USWNet 2012, Lund, Sweden, 2012.09.
7.主要发明专利
[1].一种显微镜下微流体通道y,z方向同时聚焦的观测方法,2020-07-20,CN202010700624.X
[2].一种微米颗粒二维聚集方法和聚集装置,2020-01-22,CN202010075464.4
[3].Micro-LED衬底的阵列排列转移方法、转移装置、显示装置,2019-06-25,CN201910555823.3
8.主要获奖
2015年,荣获英国EPSRC Doctoral Prize
2011年,荣获国家公派留学攻读博士学位奖学金
9.承担主要课程
本科生课程:
《工程制图》、《工程识图》、《抗疲劳长寿命制造技术》、《海洋工程装备计算机模拟仿真技术》
研究生课程:
《特种加工技术》