Enhanced Mechanical Properties of Graphene/Copper Nanocomposites Using a Molecular-Level Mixing Process

Jaewon Hwang; Taeshik Yoon; Sung Hwan Jin; Jinsup Lee; Taek-Soo Kim; Soon Hyung Hong; Seokwoo Jeon

doi:https://doi.org/10.1002/adma.201302495

doi.org/10.1002/adma.201302495

Enhanced Mechanical Properties of Graphene/Copper Nanocomposites Using a Molecular-Level Mixing Process

,

,

..., Seokwoo Jeon

54

Advanced Materials29.40

Volume: 25, Issue: 46, Pages: 6724 - 6729

Published: Aug 25, 2013

Abstract

RGO flakes are homogeneously dispersed in a Cu matrix through a molecular-level mixing process. This novel fabrication process prevents the agglomeration of the RGO and enhances adhesion between the RGO and the Cu. The yield strength of the 2.5 vol% RGO/Cu nanocomposite is 1.8 times higher than that of pure Cu. The strengthening mechanism of the RGO is investigated by a double cantilever beam test using the graphene/Cu model...

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Paper Details

Title

Enhanced Mechanical Properties of Graphene/Copper Nanocomposites Using a Molecular-Level Mixing Process

DOI

doi.org/10.1002/adma.201302495

Published Date

Aug 25, 2013

Journal

Advanced Materials

Volume

25

Issue

46

Pages

6724 - 6729

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