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Literature DB >> 27840449

Fe-catalyzed etching of exfoliated graphite through carbon hydrogenation.

Guangjun Cheng¹, Irene Calizo¹, Christina A Hacker¹, Curt A Richter¹, Angela R Hight Walker¹.

Abstract

We present an investigation on Fe-catalyzed etching of graphite by dewetting Fe thin films on graphite in forming gas. Raman mapping of the etched graphite shows thickness variation in the etched channels and reveals that the edges are predominately terminated in zigzag configuration. X-ray diffraction and photoelectron spectroscopy measurements identify that the catalytic particles are Fe with the presence of iron carbide and iron oxides. The existence of iron carbide indicates that, in additional to carbon hydrogenation, carbon dissolution into Fe is also involved during etching. Furthermore, the catalytic particles can be re-activated upon a second annealing in forming gas.

Entities: Chemical Disease Gene

Year: 2015 PMID： 27840449 PMCID： PMC5103320 DOI： 10.1016/j.carbon.2015.09.079

Source DB: PubMed Journal: Carbon N Y ISSN： 0008-6223 Impact factor: 9.594

5 in total

1. Raman scattering at pure graphene zigzag edges.

Authors: Benjamin Krauss; Péter Nemes-Incze; Viera Skakalova; László P Biro; Klaus von Klitzing; Jurgen H Smet
Journal: Nano Lett Date: 2010-10-14 Impact factor: 11.189

2. Layer number identification of intrinsic and defective multilayered graphenes up to 100 layers by the Raman mode intensity from substrates.

Authors: Xiao-Li Li; Xiao-Fen Qiao; Wen-Peng Han; Yan Lu; Qing-Hai Tan; Xue-Lu Liu; Ping-Heng Tan
Journal: Nanoscale Date: 2015-05-07 Impact factor: 7.790

1 in total

1. A Study of the Key Factors on Production of Graphene Materials from Fe-Lignin Nanocomposites through a Molecular Cracking and Welding (MCW) Method.

Authors: Qiangu Yan; Timothy Ketelboeter; Zhiyong Cai
Journal: Molecules Date: 2021-12-28 Impact factor: 4.411

1 in total

Fe-catalyzed etching of exfoliated graphite through carbon hydrogenation.

1. Raman scattering at pure graphene zigzag edges.

2. Layer number identification of intrinsic and defective multilayered graphenes up to 100 layers by the Raman mode intensity from substrates.

3. Crystallographic etching of few-layer graphene.

4. Direct in situ observations of single Fe atom catalytic processes and anomalous diffusion at graphene edges.

5. A 3D insight on the catalytic nanostructuration of few-layer graphene.

1. A Study of the Key Factors on Production of Graphene Materials from Fe-Lignin Nanocomposites through a Molecular Cracking and Welding (MCW) Method.