2015
DOI: 10.1039/c5ta04681e
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3D Si/C particulate nanocomposites internally wired with graphene networks for high energy and stable batteries

Abstract: It is challenging to design silicon anode exhibiting stable cycling behavior, high volumetric and specific capacity, and low volume expansion for Li-based batteries.Herein, we designed Si/C-IWGN composites (Si/C composites internally-wired with graphene networks). For this purpose, we used simple aqueous sol-gel systems consisting of varying amounts of silicon nanoparticles, resorcinol-formaldehyde, and graphene oxide. We found that that a small amount of graphene (1-10 wt%) in Si/C-IWGNs efficiently stabilize… Show more

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Cited by 37 publications
(26 citation statements)
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“…K. Lee et al, [ 374 ] synthesizing Si/RGO composites with a variable content of graphene (in the 1-10 wt% range), showed how the graphene matrix effectively stabilizes the electrode upon cycling. Moreover, using strategic material design, one of the composites exhibited a high volumetric capacity of about 141% higher than commercial graphite, even if the material's density was only 0.55 g cm −3 .…”
mentioning
confidence: 99%
“…K. Lee et al, [ 374 ] synthesizing Si/RGO composites with a variable content of graphene (in the 1-10 wt% range), showed how the graphene matrix effectively stabilizes the electrode upon cycling. Moreover, using strategic material design, one of the composites exhibited a high volumetric capacity of about 141% higher than commercial graphite, even if the material's density was only 0.55 g cm −3 .…”
mentioning
confidence: 99%
“…However, the electrochemical reaction between nonconducting silicon and lithium ions is accompanied by a huge net volume expansion (∼300%) 15,17,18 followed by electrode pulverization, leading to rapid capacity fading due to loss of electrical contact, growth of a newly formed unstable solid-electrolyte interface (SEI), 19,20 electrolyte depletion, and so on. To address these issues associated with silicon, tremendous research efforts have been devoted z E-mail: jklee88@dau.ac.kr to rational designs of silicon-based composites in which the huge volume variation is effectively accommodated and thus the electrical network is well preserved to secure a long cycle life.Among many conducting carbonaceous platforms for the formation of silicon-based composites, graphene has been effectively incorporated in a variety of formats to enhance the cycling stability of silicon:11, 21-38 a self-supporting silicon nanoparticle (SiNP)-graphene paper composite prepared by simple membrane filtering of a homogeneous aqueous mixture of SiNPs or silicon nanowires and graphene oxide (GO), 21,22,28,32 crumpled-graphene-encapsulated SiNPs prepared by an aerosol-assisted capillary assembly method, 24 graphene granules or a graphene hybrid coated with nanosilicon by chemical vapor deposition, 23,30 Si/C composites internally wired with dispersed graphene networks prepared by a solution-based sol-gel process, 11,39 Si-graphene composites prepared by an electrostatic self-assembly method, 25,27,29,31,40 and conformal growth of graphene cages on the surface of silicon particles by a Ni-catalyzed dissolutionprecipitation mechanism. …”
mentioning
confidence: 99%
“…11, 21-38 a self-supporting silicon nanoparticle (SiNP)-graphene paper composite prepared by simple membrane filtering of a homogeneous aqueous mixture of SiNPs or silicon nanowires and graphene oxide (GO), 21,22,28,32 crumpled-graphene-encapsulated SiNPs prepared by an aerosol-assisted capillary assembly method, 24 graphene granules or a graphene hybrid coated with nanosilicon by chemical vapor deposition, 23,30 Si/C composites internally wired with dispersed graphene networks prepared by a solution-based sol-gel process, 11,39 Si-graphene composites prepared by an electrostatic self-assembly method, 25,27,29,31,40 and conformal growth of graphene cages on the surface of silicon particles by a Ni-catalyzed dissolutionprecipitation mechanism.…”
mentioning
confidence: 99%
“…[15] Methane gas alwayss erves as the carbon source to produce graphene when using the CVD reac-tor. [18] Compositingw ith 2D graphene can remarkably improve the initial coulombic efficiencyo wing to the lower number of surface dangling bonds. [17] For the preparation of GO, graphite is the most frequentlya dopted carbons ource based on the famous Hummer's method.…”
Section: Carbonsourcesmentioning
confidence: 99%