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Graphite-silicon nanocomposite

Martin, C., Alias, M., Christien, R, Crosnier, 0., Belanger, D., and Brousse, T. [2009]. Graphite-grafted silicon nanocomposite as a negative electrode for lithium-ion batteries, Adv. Mater, 21,4735-4741. [Pg.358]

Chen, L. Chen, G. Lu, L., Piezoresistive Behavior Study on Finger-Sensing Silicone Rubbe/Graphite Nanosheet Nanocomposites. Adv. Funct. Mater. 2007, 17, 898-904. [Pg.250]

Wang, X., Dou, W. Preparation of graphite oxide (GO) and the thcamal stability of silicone rubber/GO nanocomposites. Thtamochim. Acta 529, 25—28 (2012)... [Pg.190]

These nanocomposites were synthesized from silicon and polystyrene (PA resin) using HEMM. Datta et al. [22] recently reported methods to stabilize a composite using silicon, graphite, and polyaciyl(Miitrile-based disordered carbon through HEMM, followed by subsequent heat treatment... [Pg.482]

In this method, a solvent is chosen as a reaction medium in which the polymer (or pre-polymer) is soluble and the nanofillers are also well dispersed. Such polymer/prepolymer and dispersed filler are vigorously intermixed by mechanical stirring/ultrasonic vibration at a desired temperature followed by the evaporation of the solvent. A large number of silicone rubber nanocomposites have been prepared by this method, i.e., silicone foams filled with carbon nanotubes [123-127], graphite nanosheets/sfiicone rubber [128-130], graphene sheets/SR [131], MMT/SR [132], POSS/PDMS nanocomposite [133], LDH/SR [134,135]. [Pg.89]

Silicone rubber (SR) nanocomposites with different dimensional nanofillers like OD (nanosilica, POSS, metal nanoparticle), ID (CNT, CNF), 2D (layered silicate, LDH, graphene) and 3D (graphite), etc., have been effectively reviewed in the up-to-date research work presented in this chapter covering their synthetic method, nanostructure and properties. It is noted that the SR nanocomposites exhibited improved mechanical, thermal, gas barrier properties, reduced flammability and biological properties at very low loading of fillers. However, it is concluded that such improvement in properties is only observed when fillers are uniformly dispersed and interact with SR chains. [Pg.105]

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Graphite silicon nanocomposite materials

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