Highly conductive graphene-based segregated composites prepared by particle templating

被引:0
|
作者
Nicholas Heeder
Abayomi Yussuf
Fei Guo
Indrani Chakraborty
Michael P. Godfrin
Robert Hurt
Anubhav Tripathi
Arijit Bose
Arun Shukla
机构
[1] University of Rhode Island,Dynamic Photo Mechanics Laboratory, Department of Mechanical, Industrial & Systems Engineering
[2] Brown University,Institute for Molecular and Nanoscale Innovation, School of Engineering
[3] University of Rhode Island,Department of Chemical Engineering
[4] Brown University,Center for Biomedical Engineering, School of Engineering
来源
Journal of Materials Science | 2014年 / 49卷
关键词
Graphene Oxide; Percolation Threshold; HDPE; UHMWPE; Liquid Bridge;
D O I
暂无
中图分类号
学科分类号
摘要
We use capillary-driven particle level templating and hot melt pressing to disperse few-layer graphene flakes within a polystyrene matrix to enhance the electrical conductivity of the polymer. The conducting pathways provided by the graphene located at the particle surfaces through contact of the bounding surfaces allow percolation at a loading of less than 0.01 % by volume. This method of distributing graphene within a matrix overcomes the need to disperse the sheet-like conducting fillers isotropically within the polymer, and can be scaled up easily.
引用
收藏
页码:2567 / 2570
页数:3
相关论文
共 50 条
  • [41] Microfluidization of Graphite and Formulation of Graphene-Based Conductive Inks
    Karagiannidis, Panagiotis G.
    Hodge, Stephen A.
    Lombardi, Lucia
    Tomarchio, Flavia
    Decorde, Nicolas
    Milana, Silvia
    Goykhman, Ilya
    Su, Yang
    Mesite, Steven V.
    Johnstone, Duncan N.
    Leary, Rowan K.
    Midgley, Paul A.
    Pugno, Nicola M.
    Torrisi, Felice
    Ferrari, Andrea C.
    ACS NANO, 2017, 11 (03) : 2742 - 2755
  • [42] Preparation of highly thermally conductive but electrically insulating composites by constructing a segregated double network in polymer composites
    Zhang, Xiang
    Wu, Kai
    Liu, Yuhang
    Yu, Bowen
    Zhang, Qin
    Chen, Feng
    Fu, Qiang
    COMPOSITES SCIENCE AND TECHNOLOGY, 2019, 175 : 135 - 142
  • [43] Graphene-Based Composites as Catalysts for the Degradation of Pharmaceuticals
    Olatunde, Olalekan C.
    Onwudiwe, Damian C.
    INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH, 2021, 18 (04) : 1 - 36
  • [44] Effective thermal conductivity of graphene-based composites
    Chu, Ke
    Jia, Cheng-chang
    Li, Wen-sheng
    APPLIED PHYSICS LETTERS, 2012, 101 (12)
  • [45] Graphene-Based Magnetocaloric Composites for Energy Conversion
    Coppi, Chiara
    Cugini, Francesco
    Magnani, Giacomo
    Milanese, Chiara
    Nasi, Lucia
    Lazzarini, Laura
    Pontiroli, Daniele
    Ricco, Mauro
    Solzi, Massimo
    ADVANCED ENGINEERING MATERIALS, 2022, 25 (01)
  • [46] Research Progress of Graphene-based Absorbing Composites
    Xu D.
    Wang R.
    Chen P.
    Cailiao Yanjiu Xuebao/Chinese Journal of Materials Research, 2024, 38 (01): : 1 - 13
  • [47] Building up Graphene-Based Conductive Polymer Composite Thin Films Using Reduced Graphene Oxide Prepared by γ-Ray Irradiation
    Xie, Siyuan
    Zhang, Bowu
    Wang, Chunlei
    Wang, Ziqiang
    Li, Linfan
    Li, Jingye
    SCIENTIFIC WORLD JOURNAL, 2013,
  • [48] Solid particle erosion of graphene-based coatings
    Alajmi, Abdullah F.
    Ramulu, M.
    WEAR, 2021, 476 (476)
  • [49] Preparation and Properties of Carbon Skeleton Graphene-based Conductive and Thermal Conductive Films
    Chen X.
    Shi X.
    Feng X.
    Wu H.
    Ning X.
    Zhang M.
    Hunan Daxue Xuebao/Journal of Hunan University Natural Sciences, 2019, 46 (06): : 31 - 36
  • [50] Graphene-Based Materials, Their Composites, and Potential Applications
    Ramirez, Maria Cristina
    Osendi, Maria Isabel
    MATERIALS, 2022, 15 (20)
12345