吴志刚

个人基本情况

    吴志刚(Zhigang WuProfessor新加坡南洋理工大学机械工程专业(微机电系统方向)博士,曾长期在新加坡南洋理工大学,瑞典乌普萨拉大学从事科研教学(副教授)工作,现任楚天学者讲座教授,华中科技大学机械学院教授,博士生导师,光电学院兼职教授,在Nature集团旗下子刊《Scientific Reports》和国际著名期刊《Journal of Micromechanics and Microengineering》、《Micromachines》担任编辑。

    长期从事微机电系统研究,在微观流体的混合及可视化表征、软基材料的微加工技术、生物芯片特别是细胞分离芯片的设计与开发、软体机器人材料结构加工一体化、仿生微纳机器人,以及超柔性电子系统等领域开展了多项开拓性研究,承担了多项国家基金重点、面上项目,重大研发计划等科研项目,取得了多项创新成果。在ADV MATER ADV FUNC MATER LAB CHIP,等国际权威期刊共发表学术论文近50篇,多篇文章作为亮点文章或者封面文章介绍。所发表的论文被SCI期刊共引用大于2300次,目前h指数20。数篇论文分别进入当年(月)度热点文章,为《自然》、《美国科学院院刊》、《(英国皇家)化学协会评论》、《德国应用化学》等诸多顶尖杂志引用多次。申报境外专利5项,已授权2项,申报中国发明专利20余项,已授权11项。

    欢迎热爱技术,有志于挑战自己的同学加入本组。

主要研究方向

1. 仿生微机器人

2. 软体机器人

3. 软体智能感知

4. 软基材先进制造

开设课程

本科生课程:《Introduction of Nanotechnology《学科导论-先进制造技术》

公选课:《生活中的纳米技术》

近年的科研项目、专著与论文、专利、获奖

承担的科研项目:

1.  国家自然科学基金深圳机器人基础研究中心联合基金项目,智能感知软体机器人材料设计制造一体化研究,2017/1-2020/12,265万,在研,主持。

2.  国家自然科学基金重点项目,大面积柔性电子曲面共形制造及智能蒙皮应用,2017/1-2020/12285万,在研,参与。

3.  科技部智能机器人专项,国家重点研发项目课题,具备形变可控功能的柔性手术器械研制,2017/12-2020/11,160万,在研,主持。

4.  华中科技大学数字制造装备与技术国家重点实验室自主课题,软体机器人设计,2016/4-2018/430万,在研,主持。

5.  国家自然科学基金面上项目,基于贴体热成形的准三维表面顺形电子新的制造方法的研究,2016/01-2019/1274.64万,在研,主持。

6.  湖北省自然科学基金,用于病变早期诊断微流控芯片的关键技术,2015-201710万,在研,主持。

7.  华中科技大学数字制造装备与技术国家重点实验室自主课题,细菌致疾病早期诊断微流控芯片的研究,2015-201750万,在研,主持。

8.  中组部基金,软性微纳技术与制造,2014-2016300万,在研,主持。

9.  瑞典科学理事会 (Research council)Fabrications platform for microfluidic electronics2011-2014544万瑞典克郎,负责人。

10.  (瑞典)国家无线传感中心(Wisenet)Stretchable RFID201236万瑞典克郎,负责人。

11. 乌普萨拉大学Novel PDMS surface modification80万瑞典克郎,2009-2010,负责人。

 

 

专   利:

1.  Shi Cheng, Zhigang Wu, 2008, Biaxially Stretchable RF electronics Based on Liquid Alloy, US provisional patent, 61/122,875, international paten, WO 2010/071574.

2.  Johan Kreuger, Sara Thorslund, Zhigang Wu, New use of a fluidic device, WO/2015/005863

3.  一种用于自动计分可重复使用的箭靶盘,发明人:吴志刚、邹华平,授权公告号:CN 106871728 B,授权公告日: 2018.01.05

4.  一种便携式无动力源的微流控细胞分离芯片,发明人:吴志刚 刘振华 徐文超 张硕 彭鹏 张攀 邓杰, 授权公告号:CN 106434302 B;,授权公告日:2018.03.13

5.  一种聚合物的调控改性方法,发明人:吴志刚、郑升喜、张硕,授权公告号:CN 106589942 B,授权公告日:2018.03.13

6.  一种基于机器视觉提高报靶精度的方法,发明人:吴志刚、邹华平,授权公告号:CN 107167038 B,授权公告日:2018.07.31

7.  一种提升电路稳定性的方法,发明人:吴志刚、吴康 江佳俊,专利号:ZL201611207230.0,授权日:2018.05.22

8.  一种三维表面顺形或共形图案的制备方法,发明人:吴志刚、彭鹏、张硕,专利号:ZL201610257442.3,授权日:2017.03.22

9. 一种可拉伸柔性电子器件的制备方法及产品,发明人:吴志刚、张硕、彭鹏,专利号:ZL201610205824.1,授权日:2017.03.22

10.一种可拉伸导线的制作方法,发明人:吴志刚、周其锋,彭鹏,专利号:ZL201611152559.1,授权日:2017.10.27

11.一种基于微流控技术的柔性电子制作方法,发明人:吴志刚、张攀 吴康,专利号:ZL201611010143.6,授权日:2017.11.10

12.一种表面图案化方法及具有图案的产品,发明人:吴志刚、江佳俊、张硕、张攀、周其锋,专利号:ZL201610316415.9,授权日:2017.06.30

13.一种自动计算射箭环数的箭靶装置,发明人:吴志刚、周其锋、邹华平、彭鹏,专利号:ZL201710241946.0,授权日:2018.09.25

14.一种适用于复杂曲面加工的夹具及其使用方法,发明人:吴志刚、吴康 江佳俊,申请号:2017101580440

15.一种延性电路制作方法,发明人:吴志刚、朱斌、彭鹏,申请号:201710528331.6

16.一种RFID天线制作方法,发明人:吴志刚、朱斌,申请号:201710528348.1

17.一种同轴喷头制作方法,发明人:吴志刚、张攀、吴康,申请号:201710120706.5

18.一种具备主动形变功能的柔性消融电极以及穿刺消融针,发明人:吴志刚、吴康、吕良雄,申请号:201810224450.7

19.一种用于减小机械加工工件振动的表面辅助加工工艺,发明人:吴康 吴志刚 吕良雄,申请号:201810209653.9

20.基于液态金属的柔性电子加工方法,发明人:吴志刚、王备,申请号:201810175062.4

21.一种耐疲劳性柔性电子器件的制备方法及产品,发明人:吴志刚、冷康敏、吴康,申请号:201810972570.5

22.一种聚合物的调控改性方法,发明人:吴志刚、郑升喜、张硕,国际申请号:PCT/CN2016111646

23.一种具备主动形变功能的柔性消融电极以及穿刺消融针,发明人:吴志刚、吴康、吕良雄,国际申请号:PCT/CN2017/112770

 

 

专   著:

1.   Zhigang Wu, Seung Hwan Ko, Daeho Lee, Flexible and Stretchable Electronics, MDPI, 2017.

2.  Wenjun Qiu, Chaoqun Wu and Zhigang Wu*: Surface modification of PDMS in Microfluidics, Concise Encyclopedia of High Perforamce Silicones, Ed. Atul Tiwari and Mark D Soucek, WILEY-Scrivener, Weinheim, 2014.

3.  Zhigang Wu, Microfluidic devices using flexible organic electronic materials, Handbook of Flexible Organic Electronics, Ed.: S LOGOTHETIDIS, Elseiver-Woodhead, London 2014.

4.  Zining Hou, Yu An, Zhigang Wu*: Dynamic Antibiotic Susceptibility Test via a 3D Microfluidic Culture Device, Biosensors and Biodetection Methods and Protocols, Volume 2: Electrochemical, Bioelectronic, Piezoelectric, Cellular and Molecular Biosensors, Ed Ben Prickril, Avraham Rasooly, 2nd Ed, Springer Nature – Humana Press, New York, 2017

5.  Zhigang Wu*, Nam-Trung Nguyen: Passive and Active Micromixers, Handbook of Micro Reactors Vol.1: Fundamentals, Operations and Catalysts, Edited by V. Hessel, J.C. Schouten, A. Renken, and J.-I. Yoshida, WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim, 2009.

6.  Zhigang Wu, Nam-Trung Nguyen: A Dilute Mixing Model in Microchannels, Computational Fluid and Solid Mechanics, Ed.: Bathe, K.J. Elsevier Science Ltd, 2003.


 

代表性论文:

1.     Bei Wang, Wenci Xin, Klas Hjort, Chuanfei Guo, and Zhigang Wu*Sandwiched Polyethylene Shrink Film Masking with Tunable Resolution and Shape for Liquid Alloy PatterningACS Appl. Polym. Mater.

2.  Kangmin Leng, Chuanfei Guo, Kang Wu* and Zhigang Wu*Tunnel Encapsulation Technology For Durability Improvement In Stretchable Electronics FabricationMicromachines 2018, 9, 519;

3.    Pan Deng, Cheng-Jie Fu* and Zhigang Wu*High purity and viability cell separation of a bacterivorous jakobid flagellate based on a steep velocity gradient induced soft inertial forceRSC Adv., 2018, 8, 35512

4.  Zhigang Wu*, Shuo Zhang a, Alexey Vorobyev, Kristofer Gamstedt, Kang Wu, Chuanfei Guo, Seung Hee Jeong, 2018, Seamless modulus gradient structures for highly resilient, stretchable; Materials Today Physics, Volume 4, March 2018, Pages 28-35;

5.    Kang Wu, Pan Zhang, Fen Li, Chuanfei Guo and Zhigang Wu*, 2018, On-Demand Multi-Resolution Liquid Alloy Printing Based on Viscoelastic Flow Squeezing, Polymers 2018, 10(3), 330;

6.    Peng Peng, Kang Wu, Liangxiong Lv, Chuan Fei Guo, Zhigang Wu*, 2018, OneStep Selective Adhesive Transfer Printing for Scalable Fabrication of Stretchable Electronics, Adv. Mater. Technol. 2018, 1700264;

       Selected by Adv. Mater. Technol. as Cover(封面)

7.    Yongbiao Wan, Zhiguang Qiu, Ying Hong, Yan Wang, Jianming Zhang, Qingxian Liu, Zhigang Wu, and Chuan Fei Guo*A Highly Sensitive Flexible Capacitive Tactile Sensor with Sparse and High-Aspect-Ratio MicrostructuresAdv. Electron. Mater. 2018, 4, 1700586

8.  Yongbiao Wan Zhiguang Qiu Jun Huang Jingyi Yang Qi Wang Peng Lu Junlong Yang Jianming Zhang Siya Huang Zhigang Wu Chuan Fei Guo*Natural Plant Materials as Dielectric Layer for Highly Sensitive Flexible Electronic SkinSmall 2018, 14, 1801657

       Selected by Small as Cover(封面)

9.  Zhiguang Qiu, Yongbiao Wan, Wohua Zhou, Jingyi Yang, Junlong Yang, Jun Huang, Jianming Zhang, Qingxian Liu, Siya Huang, Ningning Bai, Zhigang Wu, Wei Hong,Hong Wang, Chuan Fei Guo*Ionic Skin with Biomimetic Dielectric Layer Templated from Calathea Zebrine LeafAdv. Funct. Mater. 2018, 28, 1802343

        Selected by Adv. Funct. Mater. as Cover(封面)

10.  Hongbin AnLiangzhou Chen*, Xiaojun Liu, Bin Zhao, Donglin Ma and Zhigang WuA method of manufacturing microfluidic contact lenses by using irreversible bonding and thermoformingJ. Micromech. Microeng. 28 (2018) 105008 (10pp)

11.  Qingxian Liu, Jun Huang, Jianming Zhang, Ying Hong, Yongbiao Wan, Qi Wang, Mingli Gong, Zhigang Wu, and Chuan Fei Guo*Thermal, Waterproof, Breathable, and Antibacterial Cloth with a Nanoporous StructureACS Appl. Mater. Interfaces 10, 2, 2026-2032

12.  J Cruz, S Hooshmand Zadeh, T Graells, M Andersson, J Malmström, Z G Wu and K Hjort High pressure inertial focusing for separating and concentrating bacteria at high throughputJ. Micromech. Microeng. 27 (2017) 084001

13.  Wenchao Xu, Zining Hou, Zhenhua Liu, Zhigang Wu*Viscosity-difference Induced Asymmetric Selective Focusing for Large Stroke Particle SeparationMicrofluid Nanofluid 20, 9 (1-13). Microfluid Nanofluid (2016) 20: 128. 

14.  Seung Hee Jeong, Shuo Zhang, Klas Hjort, Jons Hillbon & Zhigang Wu*, 2016, PDMS based elastomer tuned soft stretchy and sticky for epidermal electronics, Adv Mater, 28, 5830-5836. (Cover Highlighted)

15.  Seung Hee J Chaoqun Wu, Kai Tang, Bin Gu,, Jie Deng, Zhenhua Liu, Zhigang Wu*, 2016, Concentration-dependent Viscous Mixing in Microfluidics: Modelings and ExperimentsMicrofluid Nanofluid 20, 590;

16.  Bo Chang, Quan Zhou, Robin H. A. Ras, Ali Shah, Zhigang Wu and Klas Hjort, 2016, Sliding droplets on hydrophilic/superhydrophobic patterned surfaces for liquid deposition, Appl. Phys. Lett., 108(15), 54102-54102;

17.  Bo Chang, Quan Zhou, Zhigang Wu, Zhenhua Liu, Robin H. A. Ras and Klas Hjort, 2016, Capillary Self-alignment of Microchips on Soft Template, Micromachines, 7(3), 41

18.  Klas Hjort and Zhigang Wu, Microfluidic mixing and separationJ. Micromech. Microeng. 26 (2016) 010402.

19.  Seung Hee Jeong, Si Chen, Jinxing Huo, Erik Kristofer Gamstedt, Johan Liu, Shi-Li Zhang, ZhiBin Zhang, Klas Hjort & Zhigang Wu*, Mechanically Stretchable and Electrically Insulating Thermal Elastomer Composite by Liquid Alloy Droplet Embedment, Scientific Reports, 2015, 5, 18257.

20.  Wu, Zhigang*; Hjort, Klas; Jeong, Seung Hee, 2015, Microfluidic Stretchable Radio Frequency Devices, Proc. IEEE, 103, 1211-1225. 

21.  S.H Jeong, K. Hjort and Z.G. Wu*, 2015, Tape Transfer Atomisation Patterning of Liquid Alloys for Microfluidic Stretchable Wireless Power Transfer, Scientific Reports, 5, 8419.

22.  Wu, Zhigang*; Jobs, Magnus; Rydberg, Anders; Hjort, Klas, 2015, Hemispherical Coil Electrically Small Antenna Made by Stretchable Conductors Printing and Plastic Thermoforming, J. Micromech. Microeng., 25, 027004.

23.  S.H Jeong, K. Hjort and Z.G. Wu*, 2014, Tape transfer printing of a liquid metal alloy for stretchable RF electronics, Sensors, 14(9), 16311-16321.

24.  Wenjun Qiu, Xiaojiao Sun, Chaoqun Wu, Klas Hjort and Zhigang Wu*, 2014, A Contact Angle Study of the Interaction between Embedded Amphiphilic Molecules and the PDMS Matrix in an Aqueous Environment, Micromachines, 5, 515-527.

25.  Zining Hou, Yu An, Karin Hjort, Klas Hjort, Linus Sandegren and Zhigang Wu*, Time Lapse Investigation of Antibiotic Susceptibility using a Microfluidic Linear Gradient 3D Culture Device, Lab Chip, 2014, 3409-18.

26.  S.H Jeong, K. Hjort and Z.G. Wu*, 2014, Adhesive transfer soft lithography: a low-cost and flexible rapid prototyping of microfluidic device, Micro and Nanosystems, 6 (1), 42-49, 2014.

27.  Patrik Ahlberg, Seung Hee Jeong, Mingzhi Jiao, Zhigang Wu, Ulf Jansson, Shi-Li Zhang, and Zhi-Bin Zhang, 2014, Graphene as a Diffusion Barrier in Galinstan-Solid Metal Contacts, IEEE Transactions on Electron Devices, 61, 2996-3000.

28.  S. Ogden, R. Boden, M. Do-Quang, Z.G.Wu, G.Amberg, K.Hjort, 2014, Fluid behavior of supercritical carbon dioxide with water in a double-Y-channel microfluidic chip, Microfluid Nanofluid DOI 10.1007/s10404-014-1399-6.

29.  Magnus Jobs, Klas Hjort, Anders Rydberg, Zhigang Wu*, A tunable spherical cap microfluidic electrically small antenna. Small, 2013, 9(19): 3230-3234.

30.  Seung Hee Jeong, Anton Hagman, Klas Hjort, Magnus Jobs, Johan Sundqvist, Zhigang Wu*, 2012, Liquid alloy printing of microfluidic stretchable electronics, Lab Chip, 12, 4657-4664.

31.  Shi Cheng, Zhigang Wu*, 2012, Microfuidic electronics, Lab Chip, 12, 2782-2791.

32.  Shi Cheng, Zhigang Wu*, Microfluidic Reversibly Stretchable Large-Area Wireless Strain Sensor, Adv Funct. Mater., 2011, 21, 2282-2290.

33. Shi Cheng, Zhigang Wu*, 2010, Microfuidic stretchable RF electronics, Lab Chip, 10, 3277-3244. (Cover Highlighted and interview by Patricia Pantos, Hybrid electronics get twisted, Chemical Technology, 2010, 10, 5)

34.  Zhigang Wu* (invited) & Klas Hjort, 2009, Microfluidic Hydrodynamic Cell Separation: A Review, Micro Nano system, 1, 181-192.

35.  Shi Cheng, Zhigang Wu*, Paul Hallbjorner, Klas Hjort, and Anders Rydberg, 2009, Foldable and Stretchable Liquid Metal Planar Inverted Cone Antenna, IEEE T. Antenn. Propag., 57, 3765.

36.  Zhigang Wu*, and Klas Hjort, 2009, Surface modification of PDMS by gradient-induced migration of embedded Pluronic, Lab Chip, 9, 1500 - 1503.

37.  Shi Cheng, Anders Rydberg, Klas Hjort, and Zhigang Wu*, 2009, Liquid Metal Stretchable Unbalanced Loop Antenna, Appl. Phys. Lett., 94, 144103.

38.  Zhigang Wu*, Ben Willing, Joakim Bjerketorp, Janet K. Jansson and Klas Hjort, 2009, Soft inertial microfluidics for high throughput separation of bacteria from human blood cells, Lab Chip, 9, 1193 - 1199. (Highlighted in Laura Howes, Finding a bacterium in a blood sample, Chemical Biology, 2009, 4, B28)

39.  Zhigang Wu*, Klas Hjort, Grzegorz Wicher, Asa Fex Svenningsen, 2008, Microfluidic high viability neural cell separation using viscoelastically tuned hydrodynamic spreading, Biomed. Microdevices, 10, 631-638.

40.  Zhigang Wu*, A. Q. Liu. and K. Hjort, 2007, Microfluidic continuous particle/cell separation via electroosmotic-flow-tuned hydrodynamic spreading, J. Micromech. Microeng., 17(10), 1992 - 1999.

41.  Cheng Wang, Nam-Trung Nguyen, Teck Neng Wong, Zhigang Wu, Chun Yang, Kim Tiow Ooi, 2007 Investigation of Active Interface Control of Pressure Driven Two-Fluid Flow In Microchannels, Sensors Actuat. A- Phys, 133, 323-328.

42.  Zhigang Wu, N.T. Nguyen, 2005, Hydrodynamic focusing in microchannels under consideration of diffusive dispersion: theories and experiments, Sensors Actuat. B- Chem., 107(2), 965 - 974.

43.  N.T. Nguyen, Z. G. Wu, X.Y. Huang, C. Y. Wen, 2005, The application of micro-PIV technique in the study of magneticrows in a micro-channel, J. Magn. Magn. Mater., 289(3), 396 - 398.

44.  Zhigang Wu, N.T. Nguyen, 2005, Rapid mixing using two-phase hydraulic focusing in microchannels, Biomed. Microdevices, 7(1), 13 - 20.

45.  S.H. Chan, N.T. Nguyen, Zetao Xia, Zhigang Wu, 2005, Development of a polymeric micro fuel cell containing laser-micromachined flow channels, J. Micromech. Microeng., 15(1), 231 - 236.

46.  N.T. Nguyen, Zhigang Wu, 2005, Micromixers - a Review, J. Micromech. Microeng., 15(2), R1 - R16

47. Zhigang Wu, N.T. Nguyen., 2005, Convective-diffusive transport in parallel lamination micromixers, Microfluidics & Nanofluidics, 1(3), 1 - 6.

48.  Zhigang Wu, N.T. Nguyen, X.Y. Huang, 2004, Non-linear diffusive mixing in microchannels: theory and experiments, J. Micromech. Microeng., 14(4), 604 - 611.

49.  Zhigang Wu, Thai-Quang Truong, N.T. Nguyen, X.Y. Huang, 2004, Characterization of Microfluidic Devices Using Micro Particle Image Velocimetry, Int. J. Comput. Eng. Sci., 4(2), 269 – 272.