Article: Graphene monolayer produced on Pt reusable substrates for transparent conductive electrodes applications Journal: International Journal of Nanotechnology (IJNT) 2016 Vol.13 No.8/9 pp.678 - 684 Abstract: We developed a growth process by chemical vapour deposition (CVD) allowing high quality single layer graphene using a microelectronic industrial tool able to deposit graphene on 200 mm substrates. Growth was achieved by catalytic decomposition of CH4 at a very low CH4/H2 flow rate ratio to decrease the nucleation density of graphene on platinum (Pt) and favour large graphene grains. Graphene production with a high nucleation control is obtained on Pt thin film substrates at 800°C compared to 1000°C for Cu. In these conditions, grains with typically 10th of µm size are obtained. Each grain is formed with high quality single crystal(s) without any obvious atomic defect as verified by high resolution transmission electron microscopy (HRTEM). To better assess the graphene quality, Raman spectra and mapping were performed. The intensity ratio (IG/I2D) and linewidth (G and 2D band) attested that the deposited graphene is made of a single layer at least on the tested mapped area. We devised a new electrochemical transfer method which should allow re-using the Pt substrates. Graphene sheets transferred by electrochemistry are of high quality: the density of defects such as cracks and holes is minimised. The sheet resistance of a monolayer of graphene transferred onto glass by the electrochemical process is around RS = 1300 Ω/square (four point method). By improving this route we hope to produce high quality contaminant-free graphene grade material. Inderscience Publishers - linking academia, business and industry through research

Title: Graphene monolayer produced on Pt reusable substrates for transparent conductive electrodes applications

Authors: L. Golanski; D. Rouchon; H. Okuno; P. Fugier

Addresses: LITEN, Grenoble F-38054, France; CEA, University of Grenoble Alpes, F-38000 Grenoble, France ' LETI, Minatec Campus, Grenoble F-38054, France; CEA, University of Grenoble Alpes, F-38000 Grenoble, France ' INAC, Grenoble F-38054, France; CEA, University of Grenoble Alpes, F-38000 Grenoble, France ' LITEN, Grenoble F-38054, France; CEA, University of Grenoble Alpes, F-38000 Grenoble, France

Abstract: We developed a growth process by chemical vapour deposition (CVD) allowing high quality single layer graphene using a microelectronic industrial tool able to deposit graphene on 200 mm substrates. Growth was achieved by catalytic decomposition of CH₄ at a very low CH₄/H₂ flow rate ratio to decrease the nucleation density of graphene on platinum (Pt) and favour large graphene grains. Graphene production with a high nucleation control is obtained on Pt thin film substrates at 800°C compared to 1000°C for Cu. In these conditions, grains with typically 10th of µm size are obtained. Each grain is formed with high quality single crystal(s) without any obvious atomic defect as verified by high resolution transmission electron microscopy (HRTEM). To better assess the graphene quality, Raman spectra and mapping were performed. The intensity ratio (IG/I2D) and linewidth (G and 2D band) attested that the deposited graphene is made of a single layer at least on the tested mapped area. We devised a new electrochemical transfer method which should allow re-using the Pt substrates. Graphene sheets transferred by electrochemistry are of high quality: the density of defects such as cracks and holes is minimised. The sheet resistance of a monolayer of graphene transferred onto glass by the electrochemical process is around R_S = 1300 Ω/square (four point method). By improving this route we hope to produce high quality contaminant-free graphene grade material.

Keywords: graphene growth; graphene transfer; Raman spectroscopy; transparent conductive films; carbon nanomaterials; platinum reusable substrates; chemical vapour deposition; CVD; nucleation density; Pt thin films; electrochemical transfer; glass.

DOI: 10.1504/IJNT.2016.079671

International Journal of Nanotechnology, 2016 Vol.13 No.8/9, pp.678 - 684

Published online: 07 Oct 2016 *

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Title: Graphene monolayer produced on Pt reusable substrates for transparent conductive electrodes applications

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