胡欢:浙江大学助理教授-中文百科频道

人物经历

清华大学电子工程系本科毕业，清华大学微电子所硕士毕业，伊利诺伊大学-厄巴纳香槟分校电子与计算机工程专业获得博士学位。毕业之后于2014年12月加入了IBM沃森研究院作博士后研究员，从事纳米技术在生物医疗上的应用研究。2017年10月结束博士后工作，于2017年11月入职在浙大海宁国际校区担任助理教授，并担任助理院长（科研）参与学院实验室建设和研究相关工作。

主要成就

主要贡献

期刊论文评审

Served as reviewers for following 14 journals, more than 50 times

Nano Letters

Scientific Reports

Microsystems and Nanoengineering

Langmuir

Sensors and Actuators A

Sensors and Actuators B

IEEE Sensors Journal

Journal of Micromechanical Systems

Journal of Micromechanics and Microengineering

Nanoscale Research Letters

Journal of Vacuum Science and Technology B

ACS Applied Nano Materials

ACS Applied Electronic Materials

International Journal of Extreme Manufacturing

会议评审 (Conference reviewers)

IEEE Sensor Conference

ASME International Mechanical Engineering Congress&Exposition (IMECE)

基金评审

美国自然科学基金会(NSF)纳米制造(Nanomanufacturing)项目评审

会议组织

2019 IEEE NEMS Conference, Session Chair, Scalable Nanomanufacturing

会议服务

2019 中国微米纳米技术学会第二十一届学术年会暨第十届国际会议（CSMNT2019) 优秀海报评审专家

研究领域

先进纳米加工制造，仿生学微纳传感器，集成纳米技术的芯片分析实验室。

主讲课程

2018 春季学期 Introduction to Computing 计算原理入门（助教)

2018 秋季学期去UIUC培训

2019 春期学期 Calculus II 微积分2

2019 秋季学期 Introduction to Engineering (ENGR 100)

2020 春季学期 ECE 416 Biosensor

ECE 445 Senior Design

学术成果

胡博士在学术界和工业界都有着丰富的经历，主持或参与美国国家自然科学基金、美国国防先进研究、IBM研究中心、中国国家自然科学基金委，浙江省自然科学基金委，百度基金等科研项目。具有和多学科背景的研究人员合作进行交叉领域创新研究的成功经历。迄今为止，已发表35篇同行评审论文在著名杂志如美国科学院院报，先进材料，纳米科技等，其中的三项工作被选为杂志封面报道；参加28次国际会议，多次做口头报告和邀请报告。胡博士的科研十分重视应用前景，坚持走产学研相结合的路线。已申请20项美国专利和3项中国专利，其中的8项被美国专利局授权，2项被中国专利局授权。

目前，胡博士领导纳米制造和仿生学实验室（Nanomanufacturing & Biomimetics Lab)。该实验室是一个多学科交叉的研究组, 研究内容涵盖电子，机械，材料和生物多门学科。旨在利用微纳米尺度的特殊物理效应，微纳米加工的量产化特点，开发出独特的应用在医疗，环境领域的技术以及下一代可制作10纳米以下结构的纳米制造技术。

实验室目前有以下三个研究方向：

1. 先进纳米加工制造，包括开发新型的纳米制造技术，可制作10纳米以下的纳米制造技术，低成本并且可量产的纳米加工制造工艺，实现纳米技术从实验室研发到应用的飞跃。比如用于可植入医疗设备上的纳米杀菌表面。

2. 仿生学的微纳传感器，例如仿生学的流体传感器，用于气体和液体流速流量的测量

3. 集成纳米结构或者纳米器件的的芯片实验室(lab on chip)技术，针对比细胞更小的微生物，外泌体或者蛋白质，应用于生物医疗领域。

专利

10项授权的美国专利 (10 US patents granted)

1. Embedded noble metal electrodes in microfluidics

H Hu, MF Lofaro, JT Smith, DJ Solis, BH Wunsch

US Patent 9,804,122

2. Lateral silicon nanospikes fabricated using metal-assisted chemical etching

SM Gifford, H Hu, PM Rojas, JT Smith

US Patent 9,775,339

3. Nanopillar microfluidic devices and methods of use thereof

Y Astier, H Hu, N Li, DK Sadana, JT Smith, WT Spratt

US Patent 9,719,926

4. Flexible electronics for wearable healthcare sensors

H Hu, N Li, XH Liu, K Sakuma

US Patent 9,670,061

5. Nano-pillar-based biosensing device

Y Astier, H Hu, N Li, DK Sadana, JT Smith, WT Spratt

US Patent 9,559,240

6. System, method and recording medium for temperature-aware task scheduling

I. Chuang, H Hu, T Wei

US Patent 010133610B2

7. Flexible electronics for wearable healthcare sensors

P Andry, H Hu, K Samkuma

US Patent 10,280,077 B2

8. Deterministic lateral displacement arrays

H Hu, SC Kim, JT Smith, BH Wunsch

US Patent 010010883

9. Automated machine for sorting of biological fluid

H Hu, MA Pereira, JT Smith, BH Wunsch

US Patent 10,471,425

10. Metal assisted chemical etching for fabricating high aspect ratio and straight silicon nanopillar arrays for sorting applications

H Hu, JT Smith, GA Stolovitzky, BH Wunsch

US Patent 10,507,466

2项中国专利

1. 岳瑞峰，曾雪峰，吴建刚，胡欢，刘理天，基于介质层上电润湿的微液驱动器，CN200410080348.2

2. 岳瑞峰，曾雪峰，吴建刚，胡欢，刘理天，一种介质层上电润湿的微液驱动器，CN200420117901.0

论文

Peer-Reviewed Publications

36. B. Zhan, B. Fang, S. Chanakya, Z. Xu, J. Cui, Y. Xu*, C. Gao*, H. Hu*, ROBUST AND SENSITIVE SENSING OF UNSTEADY FLOWS USING A HAIR-LIKE MACROSCOPIC GRAPHENE FIBER, IEEE MEMS 2020, Accepted

35. Y. Zhuo#*, H. Hu#*, Y. Wang, T. Marin, Meng Lu, Photonic Crystal Slab Biosensors Fabricated with Helium Ion Lithography (HIL), Sensors and Acutators A, accepted, 2019 (co-first author and co-corresponding author)

34. L. Li, F. Tian, H. Chang, J. Zhang, C. Wang, W. Rao, H. Hu*, Interactions of Bacteria With Monolithic Lateral Silicon Nanospikes Inside a Microfluidic Channel, Frontiers in Chemistry, 7:483, 2019 (corresponding author)

33. K. Sakuma, H. Hu*, X. Hu, J. Ni, S. W. Bedell, B. Webb, S. Wright, P. Lauro, K. Latzko, M. Agno, J. Tornello, J. Knickerbocker, CMOS-Compatible Wearable Sensors Fabricated Using Controlled Spalling, IEEE Sensors Journal, V19(18), 2019 (corresponding author)

32. R. Mao, W. Yao, C. Gao, Y. Xu, W. Chen, H. Hu*, BIO-INSIPRED FLOW SENSOR USING 3-D GRAPHENE AEROGEL, Transducer 2019 (Eurosensor XXXIII), Accepted (corresponding author)

31. L. Li, J. Zhang, Y. Nie, C. Wang, J. Liu, H. Hu*, Lateral silicon nanospikes integrated on sidewalls of micropillars for on-chip mechanical bacterial lysing, The 22nd international conference on Miniaturized Systems for Chemistry and Life Sciences (uTAS 2018), Kaohsiung, Taiwan, 2018 (corresponding author)

30. K. Sakuma, H. Hu, S. W. Bedell, B. Webb, S. Wright, K. Latzko, M. Agno, J. Knickerbocker, Flexible Piezoresistive Sensors Fabricated by Spalling Technique, 2018 International Flexible Electronics Technology Conference (IFETC)

29. H. Hu*, Y. Zhuo, Y. Wang, M. Lu, B. T. Cunningham， Functional Photonic Crystals Fabricated by Helium Ion Lithography, 13th IEEE Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Singapore, 2018(corresponding author)

28. H. Hu*, V. Siu, S. Gifford, S. Kim, M. Lu, P. Meyer, G. Stolovitzky, Silicon nanospikes fabricated by metal-assisted chemical etching for antibacterial applications, 111, 253701, Applied Physics Letters, 2017. (corresponding author)

Prior to joining ZJUI Institute:

27. S. Kim, B. Wunsch, H. Hu, J. Smith, R. Austin, G. Stolovitzky, Broken flow symmetry explains the dynamics of small particles in deterministic lateral displacement arrays, Proceedings of the National Academy of Sciences(PNAS), 201706645

26. H. Hu*, J. Kim, S. Somnath, “Tip-based Nanofabrication for scalable manufacturing”, Micromachines, 8(90), 2017 (corresponding author)

25. N. Li, S. Bedell, H. Hu, S. J. Han, X. Liu, K. Saenger, D. Sadana, Single crystal Flexible Electronics Enabled by 3D Spalling, Advanced Material, 29(18), 2017 (VIP paper)

24. H. Hu*, C. Huang, X. H. Liu, and K. J. Hsia, Thin film wrinkling by strain mismatch on 3D surfaces, Extreme Mechanics Letters, V8, 2016 (corresponding author)

23. H. Hu*#, S. Banerjee#, D. Estrada, R. Bashir, W. P. King, Tip-based nanofabrication of arbitrary shapes of graphene nanoribbons for device applications, RSC Advances, V5, I46, 37006, 2015 (corresponding author)

22. H. Hu, Y. Zhuo, M. E. Oruc, B. T. Cunningham, W. P. King, Nanofluidic channels with arbitrary shapes fabricated by tip-based nanofabrication, Nanotechnology, 25 455031, 2014 (Selected as the Cover Article)

21. H. Hu, V. V. Swaminathan, M. R. Z. Farahani, G. Mensing, J. Yeom, M. A. Shannon, L. Zhu, Hierarchically structured re-entrant microstructures for superhydrophobic surfaces with extremely low hysteresis, Journal of Micromechanics and Microengineering, 24, 095023, 2014

20. H. Hu, H. Cho, S. Somnath, Suhas Somnath, A. F. Vakakis, W. P. King, Silicon nano-mechanical resonators fabricated by using tip-based nanofabrication, Nanotechnology, 25 275301, 2014 (Selected as the Cover Article)

19. Y. Zhuo, H. Hu, W. Chen, M. Lu, H. Yu, K. D. Long, E. Chow, W. P. King, B. T. Cunningham, Single Nanoparticle Detection Using Photonic Crystal Enhanced Microscopy, Analyst, 139, 1007, 2014 (Selected as the Back Cover Article)

18. D. Agonafer, M. Oruc, E. Chainani, K. S. Lee, H. Hu, Mark A. Shannon, Study of ionic transport through metalized nanoporous membranes functionalized with self-assembled monolayers, Journal of Membrane Science, 461, 106, 2014

17. S. Somnath, H. Kim, H. Hu and W. P. King, Parallel nanoimaging and nanolithography using a heated microcantilever array, Nanotechnology, 25(1), 014001, 2014.

16. Vikhram V. Swaminathan, Spandana Gannavaram, Shihui Li, Huan Hu, Junghoon Yeom, Yong Wang, and Likun Zhu, 'Microfluidic Platform with Hierarchical Micro/Nanostructures and SELEX Nucleic Acid Aptamer Coating for Isolation of Circulating Tumor Cells',

IEEE nanotechnology 2013, Beijing, China.

15. H. Hu, P. K. Mohseni, L. Pan, S. Somnath, J. Felts, M. A. Shannon, X. Ling, W. P. King, Fabrication of arbitrarily-shaped silicon and silicon oxide nanostructures using tip-based nanofabrication, Journal of Vacuum Science and Technology. B, 31, 06FJ01, 2013

14. H. Hu, J. Yeom, G. Mensing, Y. Chen, M. A. Shannon and W. P King, Nano-fabrication with a flexible array of nanoapertures, Nanotechnology, 23, 175303, 2012

13. Y. Yang, N. Nguyen, N. Chen, M. Lockwood, C. Tucker, H. Hu, H. Bleckmann, C. Liu and D. L Jones, Artificial lateral line with biomimetic neuromasts to emulate fish sensing, Bioinspirations and Biomimetics, 5(1), 016001, 2010

12. H. Hu, S. Zhao, and C. Liu, Comprehensive characterization of contact, bulk and total resistance of strain-sensitive nanocomposite elastomer, 2010 IEEE 23rd International Conference on Micro Electro Mechanical Systems (MEMS), Wanchai, Hong Kong, 2010, pp. 236-239.

11. M. E. McConney, N. Chen, D. Lu, H. Hu, S. Coombs, C. Liu and V. V. Tsukruk, Biologically inspired design of hydrogel-capped hair sensors for enhanced underwater flow detection, Soft Matter, 5, 292-295, 2009

10. H. Hu and C. Liu, 'Characterizations and optimization of electrical contact between nanocomposite elastomer and metal,' TRANSDUCERS 2009 - 2009 International Solid-State Sensors, Actuators and Microsystems Conference, Denver, CO, 2009, pp. 1103-1105.

9. J. James, E. D. Goluch, H. Hu, C. Liu and M. Mrksich, Subcellular curvature at the perimeter of micropatterned cells influences lamellipodial distribution and cell polarity, Cell Motility and Cytoskeleton, Volume: 65, pp. 841-852, 2008

8. H. Hu,C. Liu and N. Chen, A robust tactile shear stress sensor derived from a bio-inspired artificial haircell sensor, Sensors, 2008 IEEE, 2008.

7. H. Hu, K. Shaikh, C. Liu, Super flexible sensor skin using liquid metal as interconnect, Sensors, 2007 IEEE, 2007.

6. J. Wang, H. Hu and Z. Wang and L. Liu, Numerical Analysis and Optimization of Insulator-based Dielectrophoresis Devices for Cell Sorter Applications, Nano/Micro Engineered and Molecular Systems, 2007. NEMS’07. 2nd IEEE International Conference on. IEEE, 2007.

5. Z. Wang, H. Hu, Y. Wang, YW. Wang, Q. Wu, L. Liu, G. Chen, Fabrication of Poly(3-hydroxybutyrate-co-3-hydroxyhex–anoate) (PHBHHx) microstructures using soft lithography for scaffold applications, Biomaterials, 27(12), 2550-2557, 2006

4. X. Zeng, R. Yue, J. Wu, H. Hu, L. Dong, Z. Wang, F. He, L. Liu, Droplet creator based on electrowetting-on-dielectric for lab on a chip, Science in China Series E, 49(2), 248-256, 2006

3. H. Hu, Z. Wang, R. Yue, L. Liu, Design and Optimization of a Microfluidic Cell Separator based on Dielectrophoresis, Nano/Micro Engineered and Molecular Systems, 1st IEEE International Conference on NanoElectroMechanical Systems (NEMS), 2006.

2. L. Li, H. Hu, H. Lin, D. Ye, Electrowetting of the blood droplet on the hydrophobic film of the EWOD chips, 27th Annual International Conference, Engineering in Medicine and Biology Society, (pp. 1941-1944). IEEE, 2005

1. Z. Wang and H. Hu, Analysis and optimization of a compliant mechanism-based digital force/weight sensor, IEEE Sensors Journal, 5(6), 2005