Atomic Carbide Bonding Leading to Superior Graphene Networks

Wenyi Huang; Jianfeng Yu; Kwang Joo Kwak; Daniel Gallego‐Perez; Wei‐ching Liao; Hao Yang; Xilian Ouyang; Lei Li; Wu Lu; Gregory P Lafyatis; L. James Lee

doi:10.1002/adma.201301899

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Atomic Carbide Bonding Leading to Superior Graphene Networks

Journal article

Peer reviewed

Atomic Carbide Bonding Leading to Superior Graphene Networks

Wenyi Huang, Jianfeng Yu, Kwang Joo Kwak, Daniel Gallego‐Perez, Wei‐ching Liao, Hao Yang, Xilian Ouyang, Lei Li, Wu Lu, Gregory P Lafyatis, …

Advanced materials (Weinheim), Vol.25(33), pp.4668-4672

09/06/2013

DOI: https://doi.org/10.1002/adma.201301899

Handle:

https://hdl.handle.net/2376/108626

PMID: 23852915

Abstract

vacuum‐assisted thermal exfoliation

carbide bonds

graphene

properties

crosslinked networks

A versatile method for achieving atomic carbide‐bonded graphene networks on both metallic and non‐metallic substrates is described. This consists of vacuum‐assisted thermal exfoliation and floatation of functional graphenes at elevated temperatures, followed by deposition on substrates and in situ formation of carbide bonds. The cross‐linked graphene networks with an interlayer distance of angstroms exhibits a unique combination of unprecedented properties.

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Title: Atomic Carbide Bonding Leading to Superior Graphene Networks
Creators: Wenyi Huang
Jianfeng Yu
Kwang Joo Kwak
Daniel Gallego‐Perez
Wei‐ching Liao
Hao Yang
Xilian Ouyang
Lei Li
Wu Lu
Gregory P Lafyatis
L. James Lee
Publication Details: Advanced materials (Weinheim), Vol.25(33), pp.4668-4672
Academic Unit: UNKNOWN
Publisher: WILEY‐VCH Verlag; Weinheim
Number of pages: 5
Identifiers: 99900547135001842
Language: English
Resource Type: Journal article

Atomic Carbide Bonding Leading to Superior Graphene Networks

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