F
Fang Gao
Researcher at Fraunhofer Society
Publications - 26
Citations - 660
Fang Gao is an academic researcher from Fraunhofer Society. The author has contributed to research in topics: Diamond & Ionic liquid. The author has an hindex of 13, co-authored 26 publications receiving 554 citations. Previous affiliations of Fang Gao include Max Planck Society.
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Journal ArticleDOI
Highly porous diamond foam as a thin-film micro-supercapacitor material
TL;DR: In this article, a diamond foam (DF) was introduced as a new material for thin-film supercapacitor application, which showed a 2.5-V potential window in aqueous solution.
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Diamond-coated silicon wires for supercapacitor applications in ionic liquids
Fang Gao,Georgia Lewes-Malandrakis,Marco Wolfer,W. Müller-Sebert,Pascal Gentile,David Aradilla,Thomas J. S. Schubert,Christoph E. Nebel +7 more
TL;DR: In this paper, a new concept of using boron-doped diamond for supercapacitors is proposed, where diamond surface enlargement is realized via bottom-up template-growth.
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Diamond-Based Supercapacitors: Realization and Properties
Fang Gao,Christoph E. Nebel +1 more
TL;DR: The recent progress on the fabrication of surface-enlarged boron-doped polycrystalline diamond electrodes, and the first prototype pouch-cell device based on the free-standing diamond paper are described, and estimations on the future target performance of diamond supercapacitors are made.
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Designing 3D Multihierarchical Heteronanostructures for High-Performance On-Chip Hybrid Supercapacitors: Poly(3,4-(ethylenedioxy)thiophene)-Coated Diamond/Silicon Nanowire Electrodes in an Aprotic Ionic Liquid
David Aradilla,Fang Gao,Georgia Lewes-Malandrakis,W. Müller-Sebert,Pascal Gentile,Maxime Boniface,Dmitry Aldakov,Boyan Iliev,Thomas J. S. Schubert,Christoph E. Nebel,Gérard Bidan +10 more
TL;DR: This multifunctionalized hybrid device represents one of the best electrochemical performances concerning coated SiNW electrodes for a high-energy advanced on-chip supercapacitor.
Journal ArticleDOI
Appropriate salt concentration of nanodiamond colloids for electrostatic self-assembly seeding of monosized individual diamond nanoparticles on silicon dioxide surfaces.
Taro Yoshikawa,Taro Yoshikawa,Verena Zuerbig,Fang Gao,René Hoffmann,Christoph E. Nebel,Oliver Ambacher,Oliver Ambacher,Vadim Lebedev +8 more
TL;DR: This major weakness of self-assembled diamond nanoparticles was solved by modifying the salt concentration of nanodiamond colloidal suspensions to suppresses the formation of small aggregates during the seeding process owing to the modified electrostatic repulsive interaction between nanoparticles.