个人简介
教育经历
2011.8 2015.5 新加坡国立大学 复合材料与工程 博士
2007.9 2011.7 哈尔滨工业大学 复合材料与工程 学士
2004.9 5483.6 哈尔滨市第三中学
2015.5 2017.9 新加坡国立大学 博士后
研究领域
(1) 碳纳米材料
(2) 导电聚合物
(3) 高效热电材料及柔性可穿戴电子器件
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]范曾,Jianyong Ouyang.Thermoelectric properties of PEDOT:PSS[J],Advanced Electronic Materials,2019,1800769-
[2]Solution processed intrinsically conductive polymer films with high thermoelectric properties and good air stability[J],Journal of Materials Chemistry A,2018,6(47):24496-24502
[3]High performance strain sensor based on buckypaper for full-range detection of human motions[J],Nanoscale,2018,10(31):14966-14975
[4]Polymer Films with Ultrahigh Thermoelectric Properties Arising from Significant Seebeck Coefficient Enhancement by Ion Accumulation on Surface[J],Nano Energy,2018,51:481-488
[5]Titanium nitride selective absorber enhanced solar thermoelectric generator (SA-STEG)[J],Applied Thermal Engineering,2018,141:828-834
[6]Siyao Zhang,Xinwei Wang,Zhongyin Zhang.Enhancement in the Thermoelectric Properties of PEDOT: PSS via One-step Treatment with Cosolvents or Their Solutions of Organic Salts[J],Journal of Materials Chemistry A,2018,6:7080-7087
[7]Recent Development of Thermoelectric Polymers and Composites[J],Macromolecular Rapid Communications,2018,39:1700727
[8]Significantly Enhanced Thermoelectric Properties of PEDOT: PSS Films through Sequential Post‐Treatments with Common Acids and Bases[J],Advanced Energy Materials,2017,7(8):1602116
[9]Higher PEDOT Molecular Weight Giving Rise to Higher Thermoelectric Property of PEDOT: PSS: A Comparative Study of Clevios P and Clevios PH1000[J],ACS Applied Materials & Interfaces,2017,9(13):11732-11738
[10]Stretchable Heaters with Composites of An Intrinsically Conductive Polymer, Reduced Graphene Oxide and An Elastomer for Wearable Thermotherapy[J],Journal of Materials Chemistry C,2017,5(6):1544-1551
[11]Significant Enhancement in the Thermoelectric Properties of PEDOT: PSS Films through a Treatment with Organic Solutions of Inorganic Salts[J],ACS Applied Materials & Interfaces,2016,8(35):23204-23211
[12]Continuous Carbon Nanotube-based Fibers and Films for Applications Requiring Enhanced Heat Dissipation[J],ACS Applied Materials & Interfaces,2016,8(27):17461-17471
[13]Continuous and Scalable Fabrication and Multifunctional Properties of Carbon Nanotube Aerogels from the Floating Catalyst Method[J],Carbon,2016,102:409-418
[14]Super-strong and Highly Conductive Carbon Nanotube Ribbons from Post-treatment Methods[J],Carbon,2016,99:407-415
[15]Post-treatments for Multifunctional Property Enhancement of Carbon Nanotube Fibers from the Floating Catalyst Method[J],ACS Applied Materials & Interfaces,2016,8(12):7948-7956
[16]Advanced Multifunctional Properties of Aligned Carbon Nanotube-epoxy Thin Film Composites[J],Materials & Design,2015,87:600-605
[17]Formation Mechanisms and Morphological Effects on Multi-properties of Carbon Nanotube Fibers and Their Polyimide Aerogel-coated Composites[J],Composites Science and Technology,2015,117:114-120
[18]Advanced Properties of Multiwalled Carbon Nanotube Elastomer Composites[J],Materials Technology,2015,30(sup3):150-154
[19]Advanced Fabrication and Oil Absorption Properties of Super-hydrophobic Recycled Cellulose Aerogels,Chemical Engineering Journal,2015,270:168-175
[20]Advanced Multifunctional Graphene Aerogel–Poly (methyl methacrylate) Composites: Experiments and Modeling[J],Carbon,2015,81:396-404
学术兼职
审稿:
Advanced Electronic Materials
New Journal of Chemistry
Results in Physics
RSC Advances
Applied Surface Science
Composites Science and Technology
International Journal of Heat and Mass Transfer
Materials Chemistry and Physics
ACS Applied Energy Materials