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Members

Thomas Higgins

Dr. Thomas Higgins

Post Doc

Horizon 2020 Marie Skodowska-Curie Individual Fellow


Applied Physical Chemistry

Im Neuenheimer Feld 253

69120 Heidelberg


Project

Solution-processing of electrolyte-gated field-effect transistors containing 2D nanomaterials

Curriculum vitae

  • since 2016
    Postdoc, University of Heidelberg
  • 2015
    Postdoc, Trinity College Dublin, Ireland
  • 2011- 2015
    PhD, Trinity College Dublin, Ireland
  • 2006-2009
    B.Sc., University of Wollongong, Australia

Publications

  1. Zhang, C; Higgins, TM; Park, S; O’Brien, SE; Long D; Coleman, JN and Nicolosi V

    Highly Flexible and Transparent Solid-State Supercapacitors Based on RuO2/PEDOT:PSS Conductive Ultrathin Films

    Nano Energy. 28, 495–505 (2016).

  2. Higgins, TM; Park S-H, King PJ, Zhang C, McEvoy N, Berner NC, et al

    A Commercial Conducting Polymer as Both Binder and Conductive Additive for Silicon Nanoparticle-Based Lithium-Ion Battery Negative Electrodes

    ACS Nano. 10, 3702–13 (2016).

  3. Higgins, TM; Coleman, JN

    Avoiding Resistance Limitations in High-Performance Transparent Supercapacitor Electrodes Based on Large-Area, High-Conductivity PEDOT:PSS Films

    ACS Applied Materials & Interfaces 7, 16495-16506 (2015).

  4. Higgins, TM; McAteer, D; Coelho, J; Sanchez, BM; Gholamvand, Z; Moriarty G; McEvoy, N; Berner, NC; Duesberg, GS; Nicolosi, V; Coleman, JN.

    Effect of Percolation on the Capacitance of Supercapacitor Electrodes Prepared from Composites of Manganese Dioxide Nanoplatelets and Carbon Nanotubes.

    ACS Nano 8, 9567-79 (2014).

  5. Paton, KR; Varrla, E; Backes, C; Smith RJ; Khan, U; O’Niell, A; Boland, C; Lotya, M; Istrate, OM; King. P; Higgins, TM; Barwich, S; May, P; Puczkarski, P; Ahmed, I; Moebius, M; Pettersson, H; Long, E; Coelho, J; O’Brien, SE; McGuire, EK; Sanchez, BM; Duesburg, GS; McEvoy, N; Pennycook, TJ; Downing, C; Crossley, A; Nicolosi, V; Coleman, JN.

    Scalable production of large quantities of defect-free few-layer graphene by shear exfoliation in liquids

    Nature Materials, 13, 624–30 (2014).

  6. Backes, C; Smith, RJ; McEvoy, N; Berner, NC; McCloskey, D; Nerl, HN; O’Niell, A; King, PJ; Higgins, TM; Hanlon, D; Scheuschner, N; Maultzsch, Janinal Houben, L; Duesberg, GS; Donegan, JF; Nicolosi, V; Coleman, JN

    Edge and Confinement Effects Allow in situ Measurement of Size and Thickness of Liquid-exfoliated Nanosheets

    Nature Communications, 5 (2014).

  7. Hanlon, D; Backes, C; Higgins, TM, Hughes M; O’Neill, A; King, P; McEvoy, N; Duesberg, GS; Sanchez, BM; Pettersson, H; Nicolosi, V; Coleman, JN.

    Production of Molybdenum Trioxide Nanosheets by Liquid Exfoliation and Their Application in High-Performance Supercapacitors.

    Chemistry of Materials 26, 1751-63 (2014).

  8. King, PJ; Higgins, TM; De, S; Nicoloso, N; Jonathan CN.

    Percolation Effects in Supercapacitors with Thin, Transparent Carbon Nanotube Electrodes

    ACS Nano, 6, 1732–41 (2012).

  9. Higgins, TM; Moulton, SE; Gilmore, K J; Wallace, GG; in het Panhuis, M.

    Gellan gum doped polypyrrole neural prosthetic electrode coatings

    Soft Matter, 7, 4690-95 (2011).

  10. Higgins, TM; Warren, H; Panhuis, M.

    Films, Buckypapers and Fibers from Clay, Chitosan and Carbon Nanotubes.

    Nanomaterials, 1, 3-19 (2011).

  11. De, S; Higgins, TM; Lyons, PE; Doherty, EM; Nirmalraj, PN; Blau; Boland, JJ; Coleman, JN.

    Silver Nanowire Networks as Flexible, Transparent Conducting Films: Extremely High DC to Optical Conductivity Ratios

    ACS Nano, 3, 1767-74 (2009).

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