个人简介
深圳大学特聘教授,博士生导师,深圳大学可拉伸电子与纳米器件研究中心主任,深大-优必选机器人触觉智能协同创新中心主任,多个国际学术期刊审稿专家,国家自然科学基金委项目评审专家,广东省科技厅及深圳市科技创新委等项目评审专家,兼任民盟中央青年委员,深圳市南山区政协委员。彭争春教授的研究生论文部分成果被写进美国多所大学选用的经典研究生教科书《Applied Tribology》(2nd. Edition, Khonsari & Booser);至今发表学术论文60余篇,以第一作者或通讯作者发表的高水平期刊论文包括Advanced Materials, Advanced Functional Materials, ACS Nano, Materials Horizon, Advanced Science, Sensors & Actuators, J. MEMS, J. Tribology等;发明专利10余项,其中3项已授权。彭争春教授组建的深圳大学可拉伸电子与纳米器件研究中心设在深圳大学光电子器件与系统教育部重点实验室内,拥有300平米百级和千级器件工艺超净实验室,目前有固定教师7名,包括教授1名,副教授1名,讲师3名,副研究员2名,博士后研究员8名,博士及硕士研究生20多名,形成了一个具有40余名研究人员的创新研究实体。
教育背景
2005.06-2010.12:美国佐治亚理工学院,微电机系统(MEMS)博士
2000.01-2002.05:美国路易斯安娜州立大学,摩擦学硕士
1992.09-1998.07:北京理工大学,机械与汽车工程/国际经济双学士
工作经历
2015.10至今:深圳大学可拉伸电子与纳米器件研究中心,主任
2011.01-2015.09:美国Intel公司芯片工艺及功能检测技术研发部,资深研发员
2002.06-2005.05:美国国家同步辐射研究中心CAMD,副研究员
研究领域
主要从事机器人电子皮肤、人体表皮电子、MEMS和微流控芯片的研究,及相关研究在提升机器人智能和人类健康中的应用。主要基于纳米功能材料、离子凝胶材料和生物弹性体材料的复合,研究其在应力作用或其它外界刺激下的电子效应、光子效应、以及自修复性能等;结合先进的材料合成、器件设计、微纳制造,实现可随着机械运动而弯曲、延展或重构,且在形变中保持优异性能的柔性传感、执行及供能器件等。另外,研究基于MEMS和微流控的微纳机器人及生物传感芯片,致力于高通量单细胞/单分子操控及检测技术的开发。
近期论文
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Ziya Wang, Xiao Guan, Huayi Huang, Haifei Wang, Waner Lin, and Zhengchun Peng*,“Full 3D Printing of Stretchable Piezoresistive Sensor with Hierarchical Porosity and Multimodulus Architecture”, Advanced Functional Materials, 2018, 1807569.
Haifei Wang†, Ziya Wang†, Jian Yang, Chen Xu, Qi Zhang, and Zhengchun Peng*, "Ionic Gels and Their Applications in Stretchable Electronics", Macromolecular Rapid Communications, 39, 1800246,2018.
Nansha Gao†, Junpeng Nie†, Haifei Wang, Chenyang Xing, Lin Mei, Wei Xiong, Xiaowei Zeng*, and Zhengchun Peng*,“A Versatile Platform Based on Black Phosphorus Nanosheets with Enhanced Stability for Cancer Synergistic Therapy”,Journal of Biomedical Nanotechnology,Vol.14,1883–1897, 2018.
Shuo Chen†, Jiarong Lian†, Weigao Wang, Yue Jiang, Xuedong Wang, Shuming Chen, Pengju Zeng* and Zhengchun Peng*, "Efficient deep blue electroluminescence with CIEy ∈ (0.05–0.07) from phenanthroimidazole–acridine derivative hybrid fluorophores", Journal of Materials Chemistry C, 6, 9363 – 9373, 2018.
Xiandi Wang, Yufei Zhang, Xiaojia Zhang, Zhihao Huo, Xiaoyi Li, Miaoling Que, Zhengchun Peng*, Hui Wang*, and Caofeng Pan*, "A Highly Stretchable Transparent Self-Powered Triboelectric Tactile Sensor with Metallized Nanofibers for Wearable Electronics", Advanced Materials,1706738, 2018.
Junjie Zhang, Jiang Liu, Yang Zhang, Feng Yu, Fu Wang, Zhengchun Peng*, Yingchun Li*, "Voltammetric lidocaine sensor by using a glassy carbon electrode modified with porous carbon prepared from a MOF, and with a molecularly imprinted polymer", Microchimica Acta, 185: 78, 2018.
Y. Zhou, M. Zhang, Z. Guo, S. Han, L. Miao, Z. Wang, X. Zhang, H. Zhang*, Z. Peng*, “Recent advances in black phosphorus-based photonic, electronic, and energy devices,” Materials Horizons, 4, 997-1019, 2017.
H. Liu, F. Sun, D. Guo, B. Fang, and Z. Peng,“Structured Output-Associated Dictionary Learning for Haptic Understanding,” IEEE Trans. on Systems, Man, and Cybernetics Systems, 10.1109/TSMC.2016.2635141, 2017.
S. Han†, L. Hu†, X. Wang, Y. Zhou, Y. Zeng*, C. Pan, Z. Peng*, “Black phosphorus quantum dots with tunable memory properties and multilevel resistive switching characteristics,” Advanced Science, 1600435, 2017.
Y. Gao†, Z. Peng†, T. Shi, X. Tan, D. Zhang, Q. Huang, C. Zuo, G. Liao, “Bio-inspired fabrication of complex hierarchical structure in silicon,” Journal of Nanoscience and Nanotechnology, vol. 15(8), pp. 5918-5923, 2015.
W. Sheng, B. Sun, T. Shi, X. Tan, Z. Peng*, G. Liao*, “Quantum-dot sensitized hierarchical micro/nanowire architecture for photoelectrochemical water splitting,” ACS Nano, vol. 8(7), pp. 7163-7169, 2014.
T. Jiang†, Z. Peng†, W. Wu, T. Shi, G. Liao, “Gas sensing using hierarchical micro/nanostructures of Morpho butterfly scales,” Sensors and Actuators (A), vol. 213, pp.63-69, 2014.
L. Chao†, Z. Peng†, T. Barker, W. Lam, “A magnetophoresis and dielectrophoresis based microarray as high-throughput biomolecular tweezers,” Technology, vol. 2(1), pp. 23-27, 2014.