D
Dan Li
Researcher at University of Melbourne
Publications - 736
Citations - 50281
Dan Li is an academic researcher from University of Melbourne. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 80, co-authored 402 publications receiving 44693 citations. Previous affiliations of Dan Li include Nanjing University & University of Wollongong.
Papers
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Processable aqueous dispersions of graphene nanosheets
TL;DR: It is reported that chemically converted graphene sheets obtained from graphite can readily form stable aqueous colloids through electrostatic stabilization, making it possible to process graphene materials using low-cost solution processing techniques, opening up enormous opportunities to use this unique carbon nanostructure for many technological applications.
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Electrospinning of Nanofibers: Reinventing the Wheel?†
Dan Li,Younan Xia +1 more
TL;DR: An overview of electrospinning can be found in this article, where the authors focus on progress achieved in the last three years and highlight some potential applications associated with the remarkable features of electro-spun nanofibers.
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Mechanically Strong, Electrically Conductive, and Biocompatible Graphene Paper
TL;DR: In this paper, a study was conducted to demonstrate that highly ordered graphene paper can be prepared by directional flow-induced assembly of graphene sheets that are well dispersed in solution, which can enhance its mechanical stiffness and strength, and also electrical conductivity.
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Liquid-Mediated Dense Integration of Graphene Materials for Compact Capacitive Energy Storage
TL;DR: Taking advantage of chemically converted graphene’s intrinsic microcorrugated two-dimensional configuration and self-assembly behavior, it is shown that such materials can be readily formed by capillary compression of adaptive graphene gel films in the presence of a nonvolatile liquid electrolyte.
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Electrospinning of polymeric and ceramic nanofibers as uniaxially aligned arrays
Dan Li,Yuliang Wang,Younan Xia +2 more
TL;DR: In this article, a collector consisting of two pieces of electrically conductive substrates separated by a gap whose width could be varied from hundreds of micrometers to several centimeters.