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材料科学与工程系

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张银行

发布时间:2022-06-05    来源:BETVlCTOR手机登录    作者:张银行    点击次    [点击关闭]

个人简历

                                              


 

张银行     讲师

所属学院: BETVlCTOR手机登录

科研方向: 多功能有机复合材料、硅负极粘结剂

联系方式: 20220041@wzu.edu.cn

招生学院: BETVlCTOR手机登录


个人简述


20208月于韩国仁荷大学获得理学博士学位,同年9月加入香港中文大学(深圳)做博士后/助理研究员。20226月加入BETVlCTOR手机登录,依托浙江省碳材料技术研究重点实验室,主要开展高导热热界面材料、碳基电热薄膜及硅负极高性能粘结剂的制备及开发。以第一作者或通讯者等在Carbon, Small, Composites Part B, Chemical Engineering Journal, Advanced Functional Materials, Composites Part A, Polymer, Angewandte Chemie等国际权威期刊发表SCI学术论文30余篇,其中影响因子大于10的有9篇,高被引论文1篇,h指数21,参与韩国发明专利2项。


学科领域


    纳米材料,功能复合材料


教育背景

2009.9-2013.6

天津工业大学          本科

2013.9-2016.3

韩国Koreatech         硕士

2016.9-2020.8

韩国仁荷大学          博士

工作经历


2020.09-2022.06          香港中文大学,SSE,博士后


2022.06-至今               BETVlCTOR手机登录,讲师


学术兼职


Chemical Engineering Journal, Composites Science and Technology, Polymer, Diamond and related materials, Carbon十几个期刊审稿人.


主要荣誉


  • 仁荷大学杰出研究奖

  • 国家优秀公派生 (20182019)

  • 韩国工业化学会优秀论文奖2

  • 深圳市海外高层次人才(孔雀计划)

  • 深圳市龙岗区“深龙英才”

 


主要论文

 


  1. Zhang Y, Wang W, Zhang F, et al. Soft Organic Thermoelectric Materials: Principles, Current State of the Art and Applications[J]. Small, 2022, 18(12): 2104922.

  2. Zhang Y, Wang W, Zhang F, et al. Micro-diamond assisted bidirectional tuning of thermal conductivity in multifunctional graphene nanoplatelets/nanofibrillated cellulose films[J]. Carbon, 2022, 189: 265-275.

  3. Zhang Y, Fan Y, Kamran U, et al. Improved thermal conductivity and mechanical property of mercapto group-activated boron nitride/elastomer composites for thermal management[J]. Composites Part A: Applied Science and Manufacturing, 2022, 156: 106869.

  4. Zhang, Y.; Heo, Y.-J.; Son, Y.-R.; In, I.; An, K.-H.; Kim, B.-J.; Park, S.-J. Recent advanced thermal interfacial materials: A review of conducting mechanisms and parameters of carbon materials. Carbon. 2019, 142, 445–460.

  5. Zhang, Y.; Rhee, K. Y.Park, S.-J. Facile design of a domestic thermoelectric generator by tailoring the thermoelectric performance of volume-controlled expanded graphite/PVDF composites. Compos. Part B Eng. 2019, 1761-6.

  6. Zhang, Y.; Park, S.-J. Influence of the nanoscaled hybrid based on nanodiamond@graphene oxide architecture on the rheological and thermo-physical performances of carboxylated-polymeric composites. Compos. Part A Appl. Sci. Manuf. 2018, 112.

  7. Zhang, Y.; Choi, J. R.; Park, S.-J. Enhancing the heat and load transfer efficiency by optimizing the interface of hexagonal boron nitride/elastomer nanocomposites for thermal management applications. Polymer (Guildf). 2018, 143.

  8. Zhang, Y.; Rhee, K. Y.; Hui, D.; Park, S.-J. A critical review of nanodiamond based nanocomposites: Synthesis, properties and applications. Compos. Part B Eng. 2018, 143.

  9. Zhang, Y.; Rak Choi, J.; Park, S.-J. Interlayer polymerization in amine-terminated macromolecular chain-grafted expanded graphite for fabricating highly thermal conductive and physically strong thermoset composites for thermal management applications. Compos. Part A Appl. Sci. Manuf. 2018.

  10. Zhang, Y.; Park, S.-J. Imidazolium-optimized conductive interfaces in multilayer graphene nanoplatelet/epoxy composites for thermal management applications and electroactive devices. Polymer (Guildf). 2019, 168, 53–60.

  11. Zhang, Y.; Choi, J. R.; Park, S.-J. Thermal conductivity and thermo-physical properties of nanodiamond-attached exfoliated hexagonal boron nitride/epoxy nanocomposites for microelectronics. Compos. Part A Appl. Sci. Manuf. 2017, 101.

  12. Zhang, Y.; Rhee, K. Y.; Park, S.-J. Nanodiamond nanocluster-decorated graphene oxide/epoxy nanocomposites with enhanced mechanical behavior and thermal stability. Compos. Part B Eng. 2017, 114.