周天乐 - 南京理工大学 - 材料科学与工程学院

个人简介

教育背景 2002-2006 上海交通大学MMCs国家重点实验室，材料学博士学位。 1995-2002 江苏科技大学材料科学与工程学院，材料学硕士学位，材料加工学士学位。 1992-1995 南京市东南大学附中。工作履历 2006-至今南京理工大学材料学院，副教授，讲师。 2012-2014 日本大阪大学产业科学研究所，受邀研究员。 2007-2010 软化学与功能材料教育部重点实验室，博士后。

研究领域

1. 先进无机非金属纳米功能材料、生物质纳米功能材料的开发与应用 2. 具精细结构的高物性无机-有机杂化材料的开发 3. 面向柔性电子、印刷电子、生物医学工程、汽车和薄膜太阳能电池等自然能源转换系统的先进聚合物复合材料研究

近期论文

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T. Zhou, S. Nagao, T. Sugahara, H. Koga, M. Nogi, K. Suganuma, T.T. Nge and Yuta Nishina.（SCI；影响因子3.84） l Targeted kinetic strategy for improving the thermal conductivity of epoxy composite containing percolating multi-layer graphene oxide chains. eXPRESS Polymer Letters 9(7), 608-623 (2015) T. Zhou, H. Koga., M. Nogi, T. Sugahara, S. Nagao, T. T. Nge, K. Suganuma, H-W. Cui, F. Liu and Y. Nishina.（SCIE；影响因子2.761） l Electrically conductive bacterial cellulose composite membranes produced by the incorporation of graphite nanoplatelets in pristine bacterial cellulose membranes. eXPRESS Polymer Letters 7(9), 756-766. (2013) T. Zhou , D. Chen, J. Jiu, T. T. Nge, T. Sugahara, S. Nagao, H. Koga, M. Nogi, K. Suganuma, X. Wang, X. Liu, P. Cheng, T. Wang, D. Xiong（SCIE；影响因子2.761） l Improving the thermal conductivity of epoxy resin by the addition of a mixture of graphite nanoplatelets and silicon carbide microparticles. eXPRESS Polymer Letters 7(7), 585-594. (2013) T. Zhou , X. Wang, P. Cheng, T. Wang, D. Xiong and X. Wang（SCIE；影响因子2.761） l Improved thermal conductivity of epoxy composites using a hybrid multi-walled carbon nanotube/micro-SiC filler. Carbon 48(4), 1171-1176. (2010) T. Zhou, X. Wang, X. Liu and D. Xiong（SCI；影响因子6.196） l Effect of silane treatment of carboxylic-functionalized multi-walled carbon nanotubes on the thermal properties of epoxy nanocomposites. eXPRESS Polymer Letters 4(4), 217-226. (2010) T. Zhou, X. Wang, X. H. Liu and J. Z. Lai（SCIE；影响因子2.761） l Influence of multi-walled carbon nanotubes on the cure behavior of epoxy-imidazole system. Carbon 47(4), 1112-1118. (2009) T. Zhou, X. Wang, X. Liu and D. Xiong（SCI；影响因子6.196） l Influence of carboxylic functionalization of MWCNTs on the thermal properties of MWCNTs/DGEBA/EMI-2,4 nanocomposites. Composites Part A: Applied Science and Manufacturing 40(11), 1792-1797. (2009) T. Zhou, X. Wang, H. Zhu and T. Wang（SCI；影响因子3.071） l Cure reaction of multi-walled carbon nanotubes /diglycidyl ether of bisphenol A/2-ethyl-4-methylimidazole (MWCNTs/DGEBA/EMI-2,4) nanocomposites: effect of carboxylic functionalization of MWCNTs. Polymer International 58(4), 445-452. (2009) T. Zhou, X. Wang and T. Wang（SCI；影响因子2.409） l Study on mechanical, thermal and electrical characterizations of nano-SiC/epoxy composites. Polymer Journal 41(1), 51-57. (2009) T. Zhou, X. Wang, M. Gu and D. Xiong （SCI；影响因子1.653） l Study of the thermal conduction mechanism of nano-SiC/DGEBA/EMI-2,4 composites. Polymer 49(21), 4666-4672. (2008) T. Zhou, X. Wang, M. Gu and X. Liu（SCI；影响因子3.562） l Isoconversional method to explore the cure reaction mechanisms and curing kinetics of DGEBA/EMI-2,4/nano-SiC system. Journal of Polymer Science Part A: polymer chemistry 44(1), 371-379. (2006) T. Zhou, M. Gu, Y. Jin, and J. Wang（SCI；影响因子3.113） l Mechanism and kinetics of epoxy-imidazole cure studied with two kinetic methods. Polymer Journal 37(11), 833-840. (2005) T. Zhou, M. Gu, Y. Jin, and J. Wang （SCI；影响因子1.653） l Effects of nano-sized carborundum particles and amino silane coupling agent on the cure reaction kinetics of DGEBA/EMI-2,4 system. Polymer 46(16), 6216-6225. (2005) T. Zhou, M. Gu, Y. Jin, and J. Wang（SCI；影响因子3.562） l Studying on the curing kinetics of a DGEBA/EMI-2,4/nano-sized carborundum system with two curing kinetic methods. Polymer 46(16), 6174-6181. (2005)