Electromagnetic interference shielding of graphene/epoxy composites

TL;DR: A critical review of the synthesis methods for graphene and its derivatives as well as their properties and the advantages of graphene-based composites in applications such as the Li-ion batteries, supercapacitors, fuel cells, photovoltaic devices, photocatalysis, and Raman enhancement are described.

TL;DR: Graphene and its derivatives are being studied in nearly every field of science and engineering as mentioned in this paper, and recent progress has shown that the graphene-based materials can have a profound impact on electronic and optoelectronic devices, chemical sensors, nanocomposites and energy storage.

TL;DR: In this paper, the structure, preparation and properties of polymer/graphene nanocomposites are discussed in general along with detailed examples drawn from the scientific literature, and the percolation threshold can be achieved at a very lower filler loading.

TL;DR: Graphene has emerged as a subject of enormous scientific interest due to its exceptional electron transport, mechanical properties, and high surface area, and when incorporated appropriately, these atomically thin carbon sheets can significantly improve physical properties of host polymers at extremely small loading.

TL;DR: An idealized material built up from freely overlapping objects randomly placed in a matrix is considered, and the geometrical percolation threshold of suspensions and composites containing complex-shaped constituents is numerically computed.

TL;DR: In this article, the graphite nanoplatelets (GNP) were treated by vapor-phase bromination, showing an increase in the interlayer spacing from 3.342 A to 3.361 A.

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