程鑫 - 南方科技大学 - 材料科学与工程系

个人简介

程鑫教授1997年毕业于中国科学技术大学地球与空间科学系，1999年获斯坦福大学（Stanford University）地球化学硕士学位，2005年获密西根大学（The University of Michigan）电子工程专业博士学位。2005年2月-12月在普渡大学（Purdue University）进行博士后研究工作。2006年1月-2012年8月在德克萨斯农工大学（Texas A&M University）电子和计算机工程系任助理教授，2012年9月至12月任终身副教授。2013年1月起，在南方科技大学全职工作，任材料科学与工程系教授和系负责人，兼任南科大分析测试中心负责人。

研究领域

微纳结构是微电子和纳米技术的基石。本课题组致力于开发具有超高精度、低成本和高吞吐量的图形化技术，用于制造有序微纳结构。尤其是在半导体光刻和纳米压印技术中，课题组将采用新概念来开发新工艺和新设备。在器件领域，课题组研究内容包括制造和测量新型微纳电子和光学器件，以及微纳固态传感器和驱动器。除了传统的硅和化合物半导体，我们有兴趣探索新材料，如有机半导体和硫族化合物，在微电子器件和微纳机电系统中的应用。目前很多基于这些新材料的器件性能表现不佳。例如，有机晶体管的截止频率低，器件重复性差，大大限制了它们在电路中的实际应用。为解决这些问题，我们将采用非常规的器件结构来规避导致器件性能低下的因素。微电子和微纳机电器件非常有用是因为它们能实现大规模集成，形成复杂系统。集成宏电子是微电子器件和微纳机电传感器以二维阵列的方式大规模密集排列在硬质或柔性基板上，形成大面积微电子及微纳传感器集成系统。阵列中每个器件由无源矩阵或有源矩阵电路来驱动或读取。集成宏电子系统的典型应用包括平板显示、平板X光成像和红外成像等技术。同时，在每个阵列单元中使用不同功能的微机电传感器，可以实现全新应用，包括数字生物芯片反应平台和柔性智能皮肤等前沿技术。课题组将通过突破常规的创新，获取原创知识产权，最终推出性能优异的创新产品，广泛应用于平板显示、检测、微纳加工、生物工程和智能皮肤等领域

近期论文

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Cheng, Xing, "Stabilization of thin-film coatings by nanoimprinted surface micro- and nanostructures on polymers", Abstracts Of Papers Of The American Chemical Society, 2018, 256, 291. Deng, ZL; Deng, JH; Zhuang, X; Wang, S; Shi, T; Wang, GP*; Wang, Y; Xu, J; Cao, YY; Wang, XL; Cheng, X*; Li, GX*; Li, XP* , "Facile metagrating holograms with broadband and extreme angle tolerance", Light-Science & Applications, 2018, 7, 78. Cao, T*; Zhang, XY; Dong, WL; Lu, L; Zhou, XL; Zhuang, X; Deng, JH; Cheng, X; Li, GX*; Simpson, RE , "Tuneable Thermal Emission Using Chalcogenide Metasurface", Advanced Optical Materials, 2018, 6, 1800169. Shi, SB; Wang, H; Chen, P; Uddin, MA; Wang, YX; Tang, YM; Guo, H*; Cheng, X; Zhang, SM; Woo, HY; Guo, XG* , "Cyano-substituted benzochalcogenadiazole-based polymer semiconductors for balanced ambipolar organic thin-film transistors", Polymer Chemistry, 2018, 9, 3873-3884. Chen, P.; Shi, S.; Wang, H.; Qiu, F.; Wang, Y.; Tang, Y.; Feng, J.-R.; Guo, H.; Cheng, X.; Guo, X.*, "Aggregation Strength Tuning in Difluorobenzoxadiazole-Based Polymeric Semiconductors for High-Performance Thick-Film Polymer Solar Cells", Acs Applied Materials & Interfaces, 2018, 10, 21481-21491. Shanshan Wu, Zengju Fan, Weichuan Wang, Hongting Fan, Zhipeng Mei, Dazhi Sun, Xing Cheng, Xingzhong Zhao, Yanqing Tian*, "Microfabricable Ratiometric Gaseous Oxygen Sensors Based on Inorganic Perovskite Nanocrystals and PtTFPP", Sensors And Actuators B, 2018, 271, 104–109. Deng, ZL; Deng, JH; Zhuang, X; Wang, S; Li, KF; Wang, Y; Chi, YH; Ye, X; Xu, J; Wang, GP; Zhao, RK; Wang, XL; Cao, YY; Cheng, X; Li, GX*; Li, XP* , "Diatomic Metasurface for Vectorial Holography", Nano Letters, 2018, 18, 2885-2892. Jiang, YW#; Yu, ZM#; Huang, XL; Chen, RF; Chen, WY; Zeng, YF; Xu, CQ; Min, HD; Zheng, N; Cheng, X , "A multilayer lateral-flow microfluidic device for particle separation", Microfluidics And Nanofluidics, 2018, 22, 40. Nan Zheng, Haodi Min, Youwei Jiang, and Xing Cheng, “Polycarbonate as a negative-tone resist for electron-beam lithography”, Journal of Vacuum Science and Technology B, 36, 021603 , 2018. Jun Miao, Yulong Chen, Yiwen Li, Jiaji Cheng, Qingyin Wu, Kar Wei Ng, Xing Cheng, Rui Chen, Chun Cheng, Zikang Tang*, “Proton Conducting Polyoxometalate/Polypyrrole Films and Their Humidity Sensing Performance”, ACS Applied Nano Materials, 1, 564, 2018. Shengbin Shi, Yuxi Wang, Mohammad Afsar Uddin, Xin Zhou, Han Guo, Qiaogan Liao, Xucheng Zhu, Xing Cheng, Han Young Woo, and Xugang Guo*, “Diﬂuorobenzoxadiazole-Based Polymer Semiconductors for High-Performance Organic Thin-Film Transistors with Tunable Charge Carrier Polarity”, Advanced Electronic Materials, 3, 1700100, 2017. “A multilayer lateral-flow microfluidic device for cancer cell filtration”, Journal of Vacuum Science and Technology B, submitted, 2017. Yangchun Lan, Wuyang Zhuge, Dehu Cui* and Xing Cheng, “Fabrication of nickel stamp using e-beam evaporation and electroforming for electroreduction of carbon dioxide”, Journal of Vacuum Science and Technology B, 35, 06G802, 2017. Chunhui Wu*, Rifei Chen, Yu Liu, Zhenming Yu, Youwei Jiang, and Xing Cheng*, “A planar dielectrophoresis-based chip for high throughput cell pairing”, Lab on Chip, 17, 4008-4014, 2017. 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 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. 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. 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. 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. 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.