Xing Cheng Prof.

Xing Cheng joined the Department of Materials Science and Engineering at Southern University of Science and Technology as a full professor in 2013. He received BS degree in Geochemistry from University of Science and Technology of China in 1997, MS degree in Geochemistry from Stanford University in 1999, and PhD degree in Electrical Engineering from the University of Michigan at Ann Arbor in 2005. He joined Texas A&M University as an assistant professor in the Department of Electrical and Computer Engineering in 2006, and became an Associate Professor in 2012. His research interests include several basic and applied areas: 1) high-resolution lithographic techniques, particularly nanoimprint, and 3D micro- and nanofabrication techniques; 2) electronic and photonic devices based on new semiconductors and functional materials; and 3) integrated macroelectronic systems. 


Education

University of Michigan, Department of Electrical Engineering and Computer Science
Ph.D., Electrical Engineering, major in Solid State Electronics, April, 2005
Thesis title: Development of Nanoimprint Lithography and Its Applications in Device Fabrication.

Stanford University, Department of Geological and Environmental Science
     M.S., major in Geochemistry, July, 1999
     Thesis title: Solid State NMR Study of Oxygen Site Exchange in Analcime

University of Science and Technology of China, Department of Earth and Space Science
     B.S., major in Geochemistry, July, 1997

Research and Teaching Experience

Southern University of Science and Technology, Department of Materials Science and Engineering

Professor, January, 2013 – present

Department Head

Director for Materials Characterization and Preparation Center

Texas A&M University, Department of Electrical and Computer Engineering
Adjunct Associate Professor, January, 2013 – present

Texas A&M University, Department of Electrical and Computer Engineering
Associate Professor, September, 2012 – December, 2012

Texas A&M University, Department of Electrical and Computer Engineering
Assistant Professor, January, 2006 – August, 2012

Purdue University, School of Electrical and Computer Engineering
Post-Doctoral Research Associate, February, 2005 – December, 2005

University of Michigan, Department of Electrical Engineering and Computer Science
Graduate Student Research Assistant, September, 1999 – December, 2004

Stanford University, Department of Geological and Environmental Science
Research Assistant, September, 1997 – July, 1999

Honors and Awards

Shenzhen Municipality Special Stipend Award,2014.

Shenzhen Peacock Award, Category B, Shenzhen Municipality, China, 2013.

The 8th Recruitment Program of Global Experts (Young Scholar Program), Organization Department of the CCCPC, China, 2012

US National Science Foundation, Faculty Early Career Development (CAREER) Award (NSF-ECCS), 2011

US Department of Defense,  DARPA Young Faculty Award, 2011


Research Interests

Planar and 3D micro- and nanofabrication techniques

High performance organic electronics: OLED, OTFT, OPV, and novel devices

Nanophotonics

Micro-Electro-Mechanical Systems

Micro- and nanofabrication techniques

Digital biochips

Integrated macroelectronics

Solar energy


Selected Publication

1.     Jun Huang, Yumin Tang, Ke Gao, Feng Liu, Han Guo, Tingbin Yang, Yongye Liang, Xing Cheng, and Xugang Guo, “Head-to-Head Linkage Containing Dialkoxy Bithiophene-Based Polymeric Semiconductors for Polymer Solar Cells with Large Open-Circuit Voltages”, Macromolecules, 50, 137-150, 2017.

2.     Bingqing Luo, Zengju Fan, Ziping Li, Yulong Chen, Yanqing Tian, and Xing Cheng, “Volume-expansion polymerization for UV-curable nanoimprinting”, Journal of Vacuum Science and Technology B, 35, 011604, 2017.

3.     Zhengyuan Jin, Qitao Zhang, Liang Hu, Teruhisa Ohno, Yujia Zeng, Xing Cheng, and Shuangchen Ruan, “Constructing hydrogen bond based melam/WO3 heterojunction with enhanced visible-light photocatalytic activity”, Applied Catalysis B: Environmental, 205, 569-575, 2017.

4.     Shengbin Shi, Qiaogan Liao, Yumin Tang, Han Guo, Xin Zhou, Yulun Wang, Tingbin Yang, Yongye Liang, Xing Cheng, Feng Liu, Xugang Guo, “Head-to-Head Linkage Containing Bithiophene-Based Polymeric Semiconductors for Highly Efficient Polymer Solar Cells”, Advanced Materials, 28, 9969-9977, 2016.

5.     Xiaojie Guo, Qiaogan Liao, Eric F. Manley, Zishan Wu, Yulun Wang, Weida Wang, Tingbin Yang, Young-Eun Shin, Xing Cheng, Yongye Liang, Lin X. Chen, Kang-Jun Baeg, Tobin J. Marks, and Xugang Guo, “Materials Design via Optimized Intramolecular Noncovalent Interactions for High-Performance Organic Semiconductors”, Chemistry of Materials, 28, 2449-2460, 2016.

6.     Po-Chun Chen, Youwei Jiang, Dawen Li, Jun Zou and Xing Cheng, “Innovative Nanoimprint-Assisted Fabrication of Anodic Aluminum Oxide, Atlas Journal of Materials Science, 1, 24-29, 2014.

7.     Yunbum Jung and Xing Cheng, “Self-aligned metallization on organic semiconductor through 3D dual-layer thermal nanoimprint”, Journal of Micromechanics and Microengineering, 24, 095009, 2014.

8.     Youwei Jiang, Binghao Wang and Xing Cheng, “Sensitive surface-enhanced Raman scattering active substrate based on gap surface plasmon polaritons”, Journal of Vacuum Science and Technology B, 32, 012601, 2014.

9.     Tao-Hua Lee, Hung-Jue Sue, and Xing Cheng, "Template-Assisted Self-Assembly and Alignment of ZnO Nanowires with Post-Deposition Growth", Journal of Vacuum Science and Technology B, 30, 06FF01, 2012.

10.  Yi-Chen Lo, Zhenzhong Sun, Shoieb Shaik, Dawen Li and Xing Cheng, "High-Resolution Non-Destructive Patterning of Isolated Organic Semiconductors", Journal of Vacuum Science and Technology B, 30, 06FB04, 2012.


Xing CHENG  
Head and Professor 
Department of Materials Science and Engineering  
South University of Science and Technology of China
Room 401, Faculty Research Building II
1088 Xueyuan Blvd., Nanshan District, Shenzhen, Guangdong, China, 518055

Office: +86-755-8801-8989

E-mail:chengx@sustc.edu.cn

Postdoc Opportunity: The department of materials science and engineering

South University of Science and Technology of China (SUSTech)

Shenzhen, China 

We are seeking an outstanding postdoctoral researcher who can lead research projects that contribute to a better understanding of Semiconductor micro-nano processing technology.

Position Description:

1. The postdoctoral candidate must be highly motivated, hard-working and open to exploring new areas of science.

2. The candidate must be willing to work independently and efficiently, with good work ethics and teamwork spirit.

3. The candidate must be willing to work closely with members of collaborative labs on joint projects.

Qualifications:

1. The postdoctoral candidate should hold a PhD degree in Micro-nano processing, semiconductor, microelectronics, or in the direction of electronic engineering, physics, materials science and engineering, mechanical engineering or related major.

2. The candidate should has won the PhD degree of the micro-nano processing, semiconductor, microelectronics, or electronic engineering, physics, materials science and engineering, mechanical engineering or related professional doctoral degree; Familiar with semiconductor micro-nano processing technology, Familiar with common semiconductor process equipment, Familiar with common semiconductor devices and the working principle of mems devices

3. The candidate should have a strong publication record in international peer-reviewed journals.

4. The candidate should have excellent speaking, reading and writing skills in English and Chinese along with good communication and interpersonal skills.

Salary:

The candidate will be offered an attractive salary and benefits package that will be dependent on experience.

To Apply:

Please send your CV (should include research accomplishments and interests, as well as list of publications) and three signed letters of recommendation on Institutional letterhead (in English and to be sent directly) to Renxuan Liu at liurx@sustc.edu.cn. The positions will remain open until filled.

  • 1

    Constructing an Efficient Charge Transfer Photocatalyst based on Hydrogen-bonded Melam/WO3 2016

     Zhengyuan Jin, Qitao Zhang, Liang Hu, Teruhisa Ohno, Yujia Zeng, Xing Cheng, and Shuangchen Ruan, “Constructing an Efficient Charge Transfer Photocatalyst based on Hydrogen-bonded Melam/WO3”, submitted to JACS, 2016.

  • 2

    Materials Design via Optimized Intramolecular Noncovalent Interactions for High-Performance Organic Semiconductors 2016

    Xiaojie Guo, Qiaogan Liao, Eric F. Manley, Zishan Wu, Yulun Wang, Weida Wang, Tingbin Yang, Young-Eun Shin, Xing Cheng, Yongye Liang, Lin X. Chen, Kang-Jun Baeg, Tobin J. Marks, and Xugang Guo, “Materials Design via Optimized Intramolecular Noncovalent Interactions for High-Performance Organic Semiconductors”, Chemistry of Materials, 28, 2449-2460, 2016. 


  • 3

    Innovative Nanoimprint-Assisted Fabrication of Anodic Aluminum Oxide 2014

    Po-Chun Chen, Youwei Jiang, Dawen Li, Jun Zou and Xing Cheng, “Innovative Nanoimprint-Assisted Fabrication of Anodic Aluminum Oxide, Atlas Journal of Materials Science, 1, 24-29, 2014.


  • 4

    Self-aligned metallization on organic semiconductor through 3D dual-layer thermal nanoimprint 2014

     Yunbum Jung and Xing Cheng, “Self-aligned metallization on organic semiconductor through 3D dual-layer thermal nanoimprint”, Journal of Micromechanics and Microengineering, 24, 095009, 2014.


  • 5

    Sensitive surface-enhanced Raman scattering active substrate based on gap surface plasmon polaritons 2014

       Youwei Jiang, Binghao Wang and Xing Cheng, “Sensitive surface-enhanced Raman scattering active substrate based on gap surface plasmon polaritons”, Journal of Vacuum Science and Technology B, 32, 012601, 2014.


  • 6

    Template-Assisted Self-Assembly and Alignment of ZnO Nanowires with Post-Deposition Growth 2012

     Tao-Hua Lee, Hung-Jue Sue, and Xing Cheng, "Template-Assisted Self-Assembly and Alignment of ZnO Nanowires with Post-Deposition Growth", Journal of Vacuum Science and Technology B, 30, 06FF01, 2012.


  • 7

    High-Resolution Non-Destructive Patterning of Isolated Organic Semiconductors 2012

    Yi-Chen Lo, Zhenzhong Sun, Shoieb Shaik, Dawen Li and Xing Cheng, "High-Resolution Non-Destructive Patterning of Isolated Organic Semiconductors", Journal of Vacuum Science and Technology B, 30, 06FB04, 2012.


  • 8

    Dual-layer thermal nanoimprint lithography without dry etching 2012

     Yunbum Jung and Xing Cheng, "Dual-layer thermal nanoimprint lithography without dry etching", Journal of Micromechanics and Microengineering, 22, 085011, 2012. (featured on Journal’s biannual highlights)


  • 9

    Gap Surface Plasmon Polaritons Enhanced by Plasmonic Lens 2011

      HyunChul Kim and Xing Cheng, “Gap Surface Plasmon Polaritons Enhanced by Plasmonic Lens”, Optics Letters, 36, 3082-3084, 2011.


  • 10

    Solid-State Dye-Sensitized Solar Cells Based on ZnO Nanoparticle and Nanorod Array Hybrid Photoanodes 2011

    Tao-Hua Lee, Hung-Jue Sue and Xing Cheng, “Solid-State Dye-Sensitized Solar Cells Based on ZnO Nanoparticle and Nanorod Array Hybrid Photoanodes”, Nanoscale Research Letters, 6, 517, 2011.


  • 11

    ZnO and conjugated polymer bulk heterojunction solar cells containing ZnO nanorod photoanode 2011

    Tao-Hua Lee, Hung-Jue Sue, and Xing Cheng, "ZnO and conjugated polymer bulk heterojunction solar cells containing ZnO nanorod photoanode", Nanotechnology22, 285401, 2011.


  • 12

    Surface phonon polaritons on SiC substrate for surface-enhanced infrared absorption spectroscopy 2010

    HyunChul Kim and Xing Cheng, “Surface phonon polaritons on SiC substrate for surface-enhanced infrared absorption spectroscopy”, Journal of Optical Society of America B, 27, 2393-2397, 2010.


  • 13

    Infrared Dipole Antenna Enhanced by Surface Phonon Polaritons 2010

    HyunChul Kim and Xing Cheng, “Infrared Dipole Antenna Enhanced by Surface Phonon Polaritons”,      Optics Letters, 35, 3748-3750, 2010.


  • 14

    Single-Walled Carbon Nanotube Alignment by Grating-Guided Electrostatic Self-Assembly 2010

    Huifeng Li, Dazhi Sun, Hung-Jue Sue and Xing Cheng, "Single-Walled Carbon Nanotube Alignment      by Grating-Guided Electrostatic Self-Assembly", Journal of Vacuum Science and Technology B, 28, 1318-1321, 2010.


  • 15

    Fabrication of High-Aspect-Ratio Polymer Nanochannels Using a Novel Si Nanoimprint Mold and Solvent Assisted Sealing 2010

    Y. H. Cho, J. Park, H. Park, X. Cheng, B. J. Kim, and A. Han, “Fabrication of High-Aspect-Ratio Polymer Nanochannels Using a Novel Si Nanoimprint Mold and Solvent Assisted Sealing,” Microfluidics and Nanofluidics, 9, 163-170, 2010. 


  • 16

    SERS-active substrate based on gap surface plasmon polaritons 2009

    HyunChul Kim and Xing Cheng, "SERS-active substrate based on gap surface plasmon polaritons", Optics Express, 17, 17234-17241, 2009.


  • 17

    Lateral-Flow Particle Filtration and Separation with Multilayer Microfluidic Channels 2009

    HyunChul Kim, Jaewon Park, Younghak Cho, Hyunsoo Park, Arum Han and Xing Cheng, "Lateral-Flow Particle Filtration and Separation with Multilayer Microfluidic Channels", Journal of Vacuum Science and Technology B, 27, 3115-3119, 2009. (Selected for publication in Virtual Journal of Biological Physics Research issue Dec 15,2009)


  • 18

    Solid-State Dye-Sensitized Solar Cell Based on Semiconducting Nanomaterials 2009

    Tao-Hua Lee, Dazhi Sun, Xi Zhang, Hung-Jue Sue and Xing Cheng, "Solid-State Dye-Sensitized      Solar Cell Based on Semiconducting Nanomaterials", Journal of Vacuum Science and Technology B, 27, 3073-3077, 2009. (Selected for publication in Virtual Journal of Nanoscale Science & Technology issue Dec 14, 2009)


  • 19

    Thermoplastic Polymer Patterning without Residual Layer by Advanced Nanoimprint Scheme 2009

    H. Park and X. Cheng,"Thermoplastic Polymer Patterning without Residual Layer by Advanced      Nanoimprint Scheme", Nanotechnology, 24, 245308, 2009.


  • 20

    Optical Antennas: A Boost for Infrared Detection 2008

    H. Li and X. Cheng, "Optical Antennas: A Boost for Infrared Detection", Journal of Vacuum Science and Technology B, 26, 2156-2159, 2008.


  • 21

    Improving Organic Thin Film Transistor Performance by Nanoimprint-Induced Chain Ordering 2008

    D. Cui, H Li,H. Park and X. Cheng, "Improving Organic Thin Film Transistor Performance by Nanoimprint-Induced Chain Ordering", Journal of Vacuum Science and Technology B, 26, 2404-2409, 2008.


  • 22

    atterning Chalcogenide Glass with Thermal Nanoimprint 2008

    Solmaz, M., Park, H., Madsen, C.K. and Cheng, X., "Patterning Chalcogenide Glass with Thermal Nanoimprint", Journal of Vacuum Science and Technology B, 26, 606-610, 2008

  • 23

    Optimizing Nanoimprint and Transfer-Bonding Techniques for Three-Dimensional Polymer Microstructures 2007

    Park, H., Li, H. and Cheng, X.,"Optimizing Nanoimprint and Transfer-Bonding Techniques for Three-Dimensional Polymer Microstructures", Journal of Vacuum Science and Technology B, 25,2325-2328, 2007.


  • 24

    A Hybrid Mask-Mould Lithography Scheme and its Applications in Nanoscale Organic Thin Film Transistors 2006

    Cheng, X., Li, D. and Guo, L. J., "A Hybrid Mask-Mould Lithography Scheme and its Applications in Nanoscale Organic Thin Film Transistors", Nanotechnology, 17, 927-932, 2006.


  • 25

    Room Temperature and Low Pressure Nanoimprinting Based on Cationic Photopolymerization of Novel Epoxysilicone Monomers 2005

    Cheng,X., Guo, L. J. and Fu, P. -F., "Room Temperature and Low Pressure Nanoimprinting Based on Cationic Photopolymerization of Novel Epoxysilicone Monomers", Advanced Materials, 17, 1419-1424, 2005.


  • 26

    Fabrication of Size-Controllable Nanofluidic Channels by Nanoimprinting and Its Application for DNA Stretching 2003

    Guo, L. J., Cheng, X. and Chou, C.-F. "Fabrication of Size-Controllable Nanofluidic Channels by Nanoimprinting and Its Application for DNA Stretching", Nano Letters, 4, 69-73,2003.


  • 27

    One-Step Lithography for Various Size Patterns with a Hybrid Mask-Mold 2003

    Cheng, X.and Guo, L. J. "One-Step Lithography for Various Size Patterns with a Hybrid Mask-Mold", Microelectronic Engineering 71, 288-293, 2003.


  • 28

    Combined-Nanoimprint-and-Photolithography Patterning Technique 2003

    Cheng, X.and Guo, L. J. A "Combined-Nanoimprint-and-Photolithography Patterning Technique", Microelectronic Engineering 71, 277-282, 2003.


  • 29

    High-resolution organic polymer light-emitting pixels fabricated by imprinting technique 2002

    Cheng,X., Hong, Y., Kanicki, J. and Guo, L. J. "High-resolution organic polymer light-emitting pixels fabricated by imprinting technique", Journal of Vacuum Science and Technology B 20, 2877-2880, 2002.


  • 30

    Reversal imprinting by transferring polymer from mold to substrate 2002

    Huang, X.D., Bao, L.-R., Cheng, X., Guo, L. J., Pang, S. W. and Yee, A. F."Reversal imprinting by transferring polymer from mold to substrate", Journal of Vacuum Science and Technology B 20,      2872-2876, 2002.


  • 31

    Nanoimprinting over topography and multilayer three-dimensional printing 2002

    Bao,L.-R., Cheng, X., Huang, X. D., Guo, L. J., Pang, S. W. and Yee, A. F."Nanoimprinting over topography and multilayer three-dimensional printing", Journal of Vacuum Science and Technology B 20, 2881-2886, 2002.


  • 32

    Fabrication of photonic nanostructures in nonlinear optical polymers 2002

    Guo, L.J., Cheng, X. and Chao, C. Y. "Fabrication of photonic nanostructures in nonlinear optical polymers", Journal of Modern Optics 49, 663-673, 2002.


  • 33

    Electrostatic self assembly of nanocomposite polymers in grating structures 2001

    Cheng, X. and Guo, L. J. "Electrostatic self assembly of nanocomposite polymers in grating structures", Journal of Vacuum Science Technology B 19, 2736-2740, 2001.


  • 34

    Solid state NMR study of oxygen site exchange and Al-O-Al site concentration in analcime 2000

    Cheng,X., Zhao, P. and Stebbins, J. F. "Solid state NMR study of oxygen site exchange and Al-O-Al site concentration in analcime", American Mineralogist 85, 1030-1037, 2000.


  • 35

    Reactive Al-O-Al sites in a natural zeolite: triple-quantum oxygen-17 nuclear magnetic resonance 1999

    Stebbins, J. F., Zhao, P., Lee, S. K. & Cheng, X. "Reactive Al-O-Al sites in a natural zeolite: triple-quantum oxygen-17 nuclear magnetic resonance", American Mineralogist 84, 1680-1684, 1999.


  • 1

    一种新型基于红外天线的微辐射热测量计 2016

     程鑫,张绍达,李维昊,“一种新型基于红外天线的微辐射热测量计”,专利号:ZL 2015 2 0907888.7,专利申请日:20151113日,授权公告日: 2016518日。


  • 2

    一种柔性压力传感器及触摸屏 2016

     程鑫、邓杨,“一种柔性压力传感器及触摸屏”,专利申请号:201610243709.3 专利申请日:20164月10日。


  • 3

    纳米压印模板、系统以及压印方法 2016

      程鑫, 崔德虎, 李自平, 明静, 张众,“纳米压印模板、系统以及压印方法”,专利号:ZL 2014 1 0044777.8, 专利申请日:201427日,授权公告日:2016420日。


  • 4

    一种纳米压印光刻胶及其制备方法 2015

    万春旭、张至、程鑫、孙大陟,“一种纳米压印光刻胶及其制备方法”,专利申请号:201510930089.6 专利申请日:20151215日。


  • 5

    Digital Microfluidic Platform for Actuating and Heating Individual Liquid Droplets 2015

    Cheng, X. and Entesari, K., "Digital Microfluidic Platform for Actuating and Heating Individual Liquid Droplets ", US Patent No: 8,980,075, 03/17/2015. 


  • 6

    一种纳米压印用膨胀聚合压印胶 2015

     程鑫,李自平,范增驹,田颜清,罗冰清,陈宇龙,井水淼,余波,“一种纳米压印用膨胀聚合压印胶”,专利申请号:201510274285.2 2015.


  • 7

    一种飞秒激光双光子聚合微纳加工系统及方法 2014

    程鑫,崔德虎,李自平,明静,“一种飞秒激光双光子聚合微纳加工系统及方法”,专利申请号:201410375257.5, 2014.


  • 8

    Method for Dispersion, Alignment and Deposition of Nanotubes 2012

    Hung-Jue Sue, Xing Cheng, Dazhi Sun, Chien-Chia Chu, and Huifeng Li, "Method for Dispersion, Alignment and Deposition of Nanotubes", US Patent No: 8,197,888, 06/12/2012.


  • 9

    Material composition for nano- and micro-lithography 2010

    Fu, P.-F., Guo, L. J. and Cheng, X. "Material composition for nano- and micro-lithography", US Patent No: 7648767, 01/19/2010.


  • 10

    Combined nanoimprinting and photolithography for micro and nano devices fabrication 2008

    Guo, L.J. and Cheng, X., "Combined nanoimprinting and photolithography for micro and nano devices fabrication", US Patent No: 7374864, 05/20/2008.


  • 11

    Method of forming nanofluidic channels 2007

    Guo, L.J. and Cheng, X., "Method of forming nanofluidic channels", US Patent No: 7169251, 01/30/2007.


  • 12

    Reversal imprint technique 2006

    Huang, X., Bao, L.-R., Cheng, X., Guo, L. J., Pang, S. W. and Yee, A. F., "Reversal imprint technique". International Patent PCT109217,May 2006.



Research scholar

CHUNHUI WU

吴春卉-高级研究学者。2015年获北京工业大学材料科学与工程专业博士学位,2015年5月至2016年7月在日本大阪大学进行博士后工作。2016年11月进入南方科技大学材料系担任高级研究学者。
主要研究方向包括单细胞分离与分析,超级电容器,透明导电薄膜等。

 

Youwei Jiang

姜有为-高级研究学者

姜有为,1986年11月出生,2009年获清华大学微电子与纳电子学专业学士学位,2014年获美国德尔萨斯农工大学(Texas A&M University)电子工程专业博士学位。2014年5月到2015年12月在美国Globalfoundries半导体公司(Malta, New York)担任前端工艺制程高级工程师。2016年1月起在南方科技大学材料科学与工程系担任高级研究学者。

姜有为博士在海外具有7年以上研究与工业界经历,在博士研究生期间主要从事微纳加工、纳米压印工艺技术和半导体器件方向的研究,相关成果在JVSTB、Atlas Journal of Materials Science、EIPBN等期刊和国际会议上发表。在美国Globalfoundries公司工作期间,姜有为博士作为高级工程师参与了10纳米、14纳米以及20纳米集成电路前端工艺的制程及流片工作;在南方科技大学工作期间,姜有为博士主持深圳市基础研究自由探索项目一项,参与深圳市基础研究学科布局一项,并入选了深圳第五十一批“孔雀计划”C类人才项目。


Youwei Jiang - senior research scholarResearch interests : Micro-nanofabrication, nano-imprint technology and semiconductor devices

Doctor

Dunhang Quan

权敦航-博士生

研究方向:纳米压印在显示中的应用

PhDResearch direction: nanoimprint applications in the display
Weihao Li

李维昊-博士

研究方向:纳米压印技术

PhDResearch interests : Nanoimprint lithography
YARU XING

南方科技大学-哈工大联培博士,研究方向:数字微流控

Siyi Min

闵思怡-港大-南科大联合培养博士

研究方向:纳米光学


HKU-SUSTC joint PhDResearch interests :nano optical
Yulong Chen

陈宇龙-博士生
研究方向:纳米压印,电润湿微流体


PhDResearch direction : nano-imprinting , electrowetting microfluidics

硕士

TIAN YE

南方科技大学-哈工大联培硕士,研究方向:纳米压印力学

XINGLONG HUANG

南科大—哈工大联培硕士,研究方向:新型纳米压印模板。

Laboratory Technician

Bo Yu

余波-实验员

研究方向:有机半导体器件加工

Lab assistantResearch interests : organic semiconductor device processing
Bingqing Luo

罗冰清-实验员

 Lab Assistant

Research Assistant

Renxuan LIu

刘仁轩-课题组秘书

Group secretary
XIn Zhuang

庄鑫-科研教学助理

研究方向:高质量氮化铝薄膜的淀积,可集成于人工胰岛素泵的医用级流量计的研发,sub-5nm光栅的制作


Research Assistant Research interests : high quality aluminum nitride thin film deposition , artificial insulin pump can be integrated in research and development of medical level meter and sub - 5 nm of grating fabrication
Zengju Fan

范增驹-科研教学助理

零收缩率光刻胶/功能化材料的表面图形化

Research AssistantResearch interests :Zero shrinkage photoresist surface graphical / functional materials
MIng Chen

陈铭-科研教学助理

研究方向: 量子点薄膜的纳米压印;有机发光器件

Research Assistant Research interests : quantum dot film nano-imprinting ; Organic light-emitting devices

Visit students

Won Suk Lee

Won Suk Lee-访问学生


visit student

Undergraduate

Zhenming Yu

余振铭-2014级本科生

研究方向:信息-微纳加工,微流控器件



UndergraduateResearch interests : Information - micro-nanofabrication, microfluidic devices
Lian Cui

崔廉-本科生 研究方向:纳米打印机的控制

UndergraduateResearch Area:the Controling of nanoprint
Tengfei Zhang

张腾飞-本科生

研究方向:纳米压印相关

UndergraduateResearch interests : Nanoimprint Related
Yifan Zeng

曾一帆-本科生

研究方向:纳米压印技术在电子与光电材料和器件方面的应用以及大规模集成微纳机电和传感器系统。


UndergraduateResearch interests :  nanoimprint technology in electronic and optoelectronic materials and device aspects of the application as well as large-scale integrated micro-nano electromechanical systems and sensors.
Wuyang Zhuge

诸葛午扬-2013级本科生

微纳尺度3D打印光刻胶和金属电镀

UndergraduateResearch interests :Micro-nano scale 3D printing photoresist and metal plating
Nan Zheng

郑楠 2014级本科生 研究方向:聚合物解压

UndergraduateResearch interests : Unzipping polymer
Haodi Min

闵浩迪本科生

研究方向:新型液态膨胀单体的合成及应用于紫外固化纳米压印胶的改良


UndergraduateResearch interests : Improved synthesis of novel liquid monomer and expansion applied UV curing nanoimprint glue
Weiyuan Chen

陈巍元-2013级电子系本科生

在程鑫教授的指导下参加了表面增强拉曼光谱的的器件结构研究,对常用微纳加工器件操作有掌握,对FDTD光学仿真软件能熟练操作。

UndergraduateResearch interests : Micro-nanofabrication devices
Rifei Chen

陈日飞-本科生

薄膜晶体管及微流控器件

UndergraduateResearch interests :Thin film transistor  and microfluidic devices

Research Interests

Planar and 3D micro- and nanofabrication techniques

High performance organic electronics: OLED, OTFT, OPV, and novel devices

Nanophotonics

Micro-Electro-Mechanical Systems

Micro- and nanofabrication techniques

Digital biochips

Integrated macroelectronics

Solar energy


Funded Projects

Government Funding

 

1.       The mechanism of ultra-high precision nano-imprinting graphic copy defect researchShenzhen Municipal Science and Technology Innovation Committee. PI: Xing Cheng. 1/7/2016-30/6/2019. Total: CNY 3,000,000.

2.       Research Team for High-Performance Organic. Shenzhen Municipal Science and Technology Innovation Council high-level overseas talents innovation projects.. PIAntonio Facchetti, Co-PIMingshun Wang, xugang Guo, Xing Cheng, Dazhi Sun, Feng He, Furong Zhu, Tingbin Yang. 10/03/2015-10/03/2020. CNY 15,000,000.

3.       High-performance organic electronic devices and integrated system, Guangdong Provincial Department of Education innovation and strong engineering school provincial major projects. PI: Xing Cheng, 27/05/2014-26/05/2019. CNY 25,000,000.

4.       Shenzhen Key Laboratory of nanoimprint technology (formation). Shenzhen research and development funds-Innovation Environment Construction Plan. PI: Xing Cheng.01/09/2014-31/08/2016. CNY 5,000,000.

5.       New UV curing and thermoplastic nanoimprint technology collaboration. Shenzhen strategic emerging industry development funds - Knowledge Innovation Program. PI: Xing Cheng.19/08/2014-31/08/2016. CNY 300,000.

6.       Guangdong Province Research Matching Fund for Recruitment Program of Global Experts (Young Scholar Program), Guangdong Provincial Government, PI: Xing Cheng, 12/01/2013 – 11/30/2016, Total: CNY 500,000.

7.       Research Fund for Recruitment Program of Global Experts (Young Scholar Program), Organization Department of the CCCPC, PI: Xing Cheng, 12/01/2013 – 11/30/2016, Total: CNY 3,000,000.

8.       “Surface-Phonon-Polariton-Enhanced Infrared Antennas for Exceptionally Sensitive Chemical Detection”, DoD DARPA, PI: Xing Cheng, 08/01/2011 – 09/30/2013, Total: USD 300,000.

9.       “CAREER: High-Performance Nanoscale Polymer Thin-Film Transistors for Integrated Circuit Applications", National Science Foundation - ECCS-EPMD, PI: Xing Cheng, 02/01/2011 – 01/31/2016, Total: USD 400,000.

10.   “A Novel All-Purpose Programmable and Scalable Biochip for Biomedical Applications”, National Institutes of Health - NCRR, PI: Xing Cheng, Co-PI: Kamran Entesari, James Sacchettini, 09/15/2010 – 05/31/2012, Total: USD 349,246.

11.    “Nanoimprint Mold Fabrication By Electrostatic Self-Assembly and Controlled Sublimation for Sub-10 nm Lithography”, US Navy – Office of Naval Research, PI: Xing Cheng, 11/01/2008 – 12/14/2010, Total: USD 155,410.

Industrial Funding

1.        “Fabricating Polymer Solar Cell with Nanoscale-Ordered Bulk Heterojunction”, Sumitomo America Inc., PI: Xing Cheng, 10/01/2010 - 03/31/2011, Total: USD 25,000.

2.       “Explore the Commercial Viability of a Recent Invention by TAMU on New Approaches to Achieve Exfoliation and Dispersion of CNT in Epoxy and Other Media”, The Boeing Company, PI: Hung-Jue Sue, Co-PI: Xing Cheng, 10/01/2007 – 08/31/2008, Total: USD 25,000.

Internal Funding

1.       “Development of Senior Undergraduate and Graduate Textbook – Fundamentals of Organic Electronics”, SUSTC Education Reform and Research Project, PI: Xing Cheng, 06/01/2014 – 05/31/2016, Total: CNY 40,000.

2.       “Solid-State Dye-Sensitized Solar Cells Based on Carbon Nanotubes and Semiconductor Nanoparticles”, Texas A&M University Energy Resources Program, PI: Xing Cheng, Co-PI: Hung-Jue Sue, 05/01/2008 – 04/30/2010, Total: USD 100,000.