Yiğit Uysallı scite author profile

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Coalescence of few layer graphene grains grown by chemical vapor deposition and their stacking sequence

Karamat

Sonusen

Dede³

et al. 2015

J. Mater. Res.

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Few layer graphene is attractive due to its extraordinary electronic and optical properties, which are strongly influenced by the orientation between the layers called as stacking sequence. It is challenging to synthesize high quality large size single or multi layer graphene crystals on the metal catalyst using chemical vapor deposition technique. The present work is about synthesis of few layer graphene grains on platinum foil using ambient pressure chemical together vapor deposition technique. The main focus is how the different grains coalesced and maintain the stacking sequence. Different characterization techniques are used to analyze the grains when they are in the process of merging to make a bigger grain. Scanning electron microscopy clearly shows different stacking sequences and merging of different nucleation sites of different grains. Interestingly, different stacking sequences are observed during the process of coalescence of grains. Raman spectroscopy gives accurate information about the number of layers and their stacking sequence. We observed Bernal AB and twisted layer stacking in the grains when they were combining together to grow into a bigger size. The full width at half maximum (FWHM) value of 2D Raman peaks appeared in the range of 52-69 cm À1 which shows an increase from the value of single layer graphene (30.18 cm .

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DeepCAN: A Modular Deep Learning System for Automated Cell Counting and Viability Analysis

Eren¹,

Aslan

Kanarya

et al. 2022

IEEE J. Biomed. Health Inform.

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Suitable alkaline for graphene peeling grown on metallic catalysts using chemical vapor deposition

Karamat

Sonusen

Çelik³

et al. 2016

Applied Surface Science

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Yiğit Uysallı

Synthesis of few layer single crystal graphene grains on platinum by chemical vapour deposition

Highly sensitive optical sensor for hydrogen gas based on a polymer microcylinder ring resonator

Coalescence of few layer graphene grains grown by chemical vapor deposition and their stacking sequence

DeepCAN: A Modular Deep Learning System for Automated Cell Counting and Viability Analysis

Suitable alkaline for graphene peeling grown on metallic catalysts using chemical vapor deposition

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