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个人简介

2006年毕业于吉林大学物理化学专业,获理学博士学位。 同年8月,进入中国科学院上海有机化学研究所从事博士后研究。 出站至今,在中科院宁波材料技术与工程研究所功能材料与纳米器件事业部工作。 先后主持国家、省市各级自然科学基金、重大专项及企业合作项目,作为主要科研人员参与973子课题、中科院创新型方向性项目、浙江省自然科学基金重大项目等的研究。在J. Am. Chem. Soc.,NPG Asia Mater.,ACS Appl. Mater. Interface,Adv. Opt. Mater.,Chem 等学术期刊发表研究论文50余篇,发明专利16项已获授权,相关研究成果获2010年度宁波市科技进步二等奖。2009年入选浙江省“151人才工程”,2011年入选宁波市“领军拔尖人才培养工程”。 代表性授权专利: 1. 靳婷,程昱川,许高杰,何茹,蒋萌,陈超,一种防止电流变液分散介质挥发的方法,ZL201410201572.6 2. 何茹,程昱川,许高杰,蒋萌,靳婷,罗玉霞,用于待测物拉曼光谱检测的复合粒子、其制备方法及使用方法,ZL201410006165.X 3. 刘丰华,许高杰,程昱川,郭建军,纳米无机富锌复合防腐涂料及其制备方法,ZL201410334822.3 4. 钱志江,程昱川,何茹,靳婷,许高杰,一种水体多环芳烃检测试剂及其应用,ZL201310158667.X 5. 刘丰华,许高杰,程昱川,郭建军,一种纳米凹土无机富锌防腐涂料及其制备方法,申请号:201310072730.8 6. 钱志江,程昱川,郭建军,王彪,孙爱华,许高杰,刘丰华,一种具有表面增强拉曼效应的氧化石墨烯/纳米贵金属复合材料及其制备,ZL201210268123.4 7. 程昱川,许高杰,郭建军,孙爱华,王彪,吴敬华,一种核壳型金属氧化物/氧化钛复合物电流变液及其制备方法,ZL201210190760.4 8. 程昱川,郭建军,刘雪辉,刘丰华,吴敬华,宋振阳,许高杰,崔平,一种凹凸棒和钛氧基化合物复合材料电流变液,ZL201010509868.6 9. 吴敬华,许高杰,刘丰华,刘雪辉,郭建军,程昱川,崔平,表面改性草酸氧钛钙电流变液及其制备方法,ZL200910099360.0 10. 程昱川,刘丰华,郭建军,刘雪辉,吴开华,许高杰,崔平,一种棒状钙钛复合物巨电流变液及其制备方法,ZL200910097939.3

研究领域

1)智能柔性材料的设计、组装及器件 2)4D打印材料与技术研究 3)表面等离激元超灵敏传感器构筑及其在环境、食品安全、能源领域的应用

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

1. Jiang, S. L.; Liao, G. X.; Xu, D. D.; Liu, F. H.; Li,W.; Cheng, Y. C.; Li, Z. X., Xu, G. J.; Mechanical properties analysis of polyetherimide parts fabricated by fused deposition modeling, High Performance Polymers, 2019, 31(1), 97-106. 2. Niu, Z.; Gunatilleke, W. D. C. B.; Sun, Q,; Lan, P. C.; Perman, J.; Ma, J. G.; Cheng, Y. C.; Aguila, B.; Ma, S. Q.; Metal-Organic Framework Anchored with a Lewis Pair as a New Paradigm for Catalysis, Chem, 2018, 4(11), 2587-2599. 3. Wu, J. H.; Zhang, L.; Xin, X.; Zhang, Y.; Wang, H.; Sun, A. H.; Cheng, Y. C.; Chen, X. D.; Xu, G. J.; The Electrorheological Fluids with High Shear Stress Based on Wrinkly Tin Titanyl Oxalate, ACS Appl. Mater. Interfaces, 2018, 10 (7), 6785-6792. 4. Liao, G. X.; Li Z. X.; Cheng, Y. C.; Xu, D. D.; Zhu, D. C.; Jiang, S. L.; Guo, J. J.; Chen. X. D.; Xu G. J.; Properties of oriented carbon fiber/polyamide 12 composite parts fabricated by fused deposition modeling, Materials &Design, 2018, 139, 283-192. 5. Liu, Y. J.; Bao, J. J.; Zhang, L.; Chen, C.; Guo J. J.; Cheng, Y. C.; Zhu, Y. J.; Xu, G. J.; Ultrasensitive SERS detection of propranolol based on sandwich nanostructure of molecular imprinting polymers, Sensors and Actuators B: Chemical, 2018, 255, 110-116. 6. Sun, Q; Aguila, B.; Perman J.; Earl, L. D.; Abney, C. W.; Cheng, Y. C.; Wei, H.; Nguyen, N.; Wojtas, L.; Ma, S. Q.; Postsynthetically Modified Covalent Organic Frameworks for Efficient and Effective Mercury Removal, Journal of the American Chemical Society, 2017, 139(7), 2786-2793. 7. Tang, X. B.; Sun, A. H.; Chu, C. Y.; Yu, M. L.; Ma, S.; Cheng, Y. C.; Guo, J. J.; Xu, G. J.; A novel silica nanowire-silica composite aerogels dried at ambient pressure, Materials &Design, 2017, 115, 415-421. 8. Wu, J. H; Song, Z. Y.; Liu, F. H.; Guo, J. J.; Cheng, Y. C.; Ma, S. Q*.; Xu, G. J., Giant electrorheological fluids with ultrahigh electrorheological efficiency based on a micro/nano hybrid calcium titanyl oxalate composite, NPG Asia Mater., 2016, 8, e322. 9. Jiang, M.; Qian, Z. J.; Zhou, X. F.; Xin, X.; Wu, J. H.; Chen, C.; Zhang, G. J.; Xu, G. J.; Cheng, Y. C., CTAB micelles assisted rGO-AgNP hybrids for SERS detection of polycyclic aromatic hydrocarbons. Phys. Chem. Chem. Phys., 2015, 17 (33), 21158-21163 (Advance article) 10. He, R.; Cheng, Y. C.; Jin, T.; Jiang, M.; Chen, C.; Xu, G. J., Core/Satellite Heterostructure with Hierarchical Nanogaps for Raman Spectroscopy Enhanced by Shell-Isolated Nanoparticles. Adv. Opt. Mater., 2014, 2 (8), 788-793. 11. Wu, J. H.; Jin, T.; Liu, F. H.; Guo, J. J.; Cui, P.; Cheng, Y. C.; Xu, G. J., Preparation of rod-like calcium titanyl oxalate with enhanced electrorheological activity and their morphological effect. J. Mater. Chem. C, 2014, 2 (28), 5629-5635. 12. Qian, Z. J.; Cheng, Y. C.; Zhou, X. F.; Wu, J. H.; Xu, G. J. , Fabrication of graphene oxide/Ag hybrids and their surface-enhanced Raman scattering characteristics. J. Colloid Interface Sci., 2013, 397, 103-107. 13. Wu, J. H.; Xu, G. J. ; Cheng, Y. C.; Liu, F. H.; Guo, J. J.; Cui, P., The influence of high dielectric constant core on the activity of core-shell structure electrorheological fluid. J. Colloid Interface Sci., 2012, 378, 36-43. 14. Song, Z. Y.; Cheng, Y. C.; Wu, J. H.; Guo, J. J.; Xu, G. J. , Influence of volume fraction on the yield behavior of giant electrorheological fluid. Appl. Phys. Lett., 2012, 101 (10), 101908. 15. Cheng, Y. C.; Guo, J. J.; Liu, X. H.; Sun, A. H.; Xu, G. J.; Cui, P., Preparation of uniform titania microspheres with good electrorheological performance and their size effect. J. Mater. Chem., 2011, 21 (13), 5051-5056. 16. Cheng, Y. C.; Wu, K. H.; Liu, F. H.; Guo, J. J.; Liu, X. H.; Xu, G. J.; Cui, P., Facile Approach to Large-Scale Synthesis of 1D Calcium and Titanium Precipitate (CTP) with High Electrorheological Activity. ACS Appl. Mater. Interfaces, 2010, 2 (3), 621-625.

学术兼职

现担任Accounts. Chem. Res.,ACS Appl. Mater. Interface,Small,Appl. Phys. Lett.,Soft Matter等期刊审稿人,2013年入选中科院青年创新促进会会员

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