Precise lateral control of graphene via living zigzag edges

From chemical vapor deposition grown film to nanoscale lithographic devices, etching is a critical procedure to define two-dimensional (2D) materials’ geometry and edge type. Many reported etching procedures could potentially damage the activity of the edge, while a living edge is capable to heal an...

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Veröffentlicht in:	Carbon (New York) 2020-10, Vol.167, p.718-723
Hauptverfasser:	Liu, Bing, Gong, Peng, Sun, Yangye, Ba, Kun, Xie, Songhai, Sun, Zhengzong
Format:	Artikel
Sprache:	eng
Schlagworte:	Basal plane Chemical vapor deposition Crystallography Etching Graphene Graphite Lateral control Replicating Thin films Two dimensional materials
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creator	Liu, Bing Gong, Peng Sun, Yangye Ba, Kun Xie, Songhai Sun, Zhengzong
description	From chemical vapor deposition grown film to nanoscale lithographic devices, etching is a critical procedure to define two-dimensional (2D) materials’ geometry and edge type. Many reported etching procedures could potentially damage the activity of the edge, while a living edge is capable to heal and regrow back. Here we successfully demonstrated a continuous growth-etching-regrowth procedure to achieve the precise lateral control of graphene basal plane. The etching process leaves graphene with dominant zigzag edges. Up to 85% of the new graphene domains can be regrown from the living edges, replicating the graphene’s crystallographic orientation before the etching. At 1050 °C, the etching and regrowth can be linearly controlled at a rate of −2.7 μm/min and 2.4 μm/min, respectively. This represents a promising technique for precisely tailoring the lateral structure of graphene with selective edge type. [Display omitted]
doi_str_mv	10.1016/j.carbon.2020.06.049
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subjects	Basal plane Chemical vapor deposition Crystallography Etching Graphene Graphite Lateral control Replicating Thin films Two dimensional materials
title	Precise lateral control of graphene via living zigzag edges
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