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Exceptional Thermochemical Stability of Graphene on N-Polar GaN for Remote Epitaxy. | LitMetric

AI Article Synopsis

  • This study examines the stability of graphene on GaN substrates for remote epitaxy using metal-organic chemical vapor deposition (MOCVD), highlighting that high temperatures can lead to graphene's thermochemical decomposition, which complicates the process.
  • The research finds that graphene exhibits unexpected stability on N-polar GaN compared to Ga-polar GaN, resulting in releasable microcrystals on N-polar while Ga-polar leads to nonreleasable thin films, due to how each interacts with hydrogen at elevated temperatures.
  • Using various analytical techniques and simulations, the team confirms that graphene's stability varies with GaN polarity, and the findings contribute to the development of flexible light

Article Abstract

In this study, we investigate the thermochemical stability of graphene on the GaN substrate for metal-organic chemical vapor deposition (MOCVD)-based remote epitaxy. Despite excellent physical properties of GaN, making it a compelling choice for high-performance electronic and light-emitting device applications, the challenge of thermochemical decomposition of graphene on a GaN substrate at high temperatures has obstructed the achievement of remote homoepitaxy via MOCVD. Our research uncovers an unexpected stability of graphene on N-polar GaN, thereby enabling the MOCVD-based remote homoepitaxy of N-polar GaN. Our comparative analysis of N- and Ga-polar GaN substrates reveals markedly different outcomes: while a graphene/N-polar GaN substrate produces releasable microcrystals (μCs), a graphene/Ga-polar GaN substrate yields nonreleasable thin films. We attribute this discrepancy to the polarity-dependent thermochemical stability of graphene on the GaN substrate and its subsequent reaction with hydrogen. Evidence obtained from Raman spectroscopy, electron microscopic analyses, and overlayer delamination points to a pronounced thermochemical stability of graphene on N-polar GaN during MOCVD-based remote homoepitaxy. Molecular dynamics simulations, corroborated by experimental data, further substantiate that the thermochemical stability of graphene is reliant on the polarity of GaN, due to different reactions with hydrogen at high temperatures. Based on the N-polar remote homoepitaxy of μCs, the practical application of our findings was demonstrated in fabrication of flexible light-emitting diodes composed of p-n junction μCs with InGaN heterostructures.

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Source
http://dx.doi.org/10.1021/acsnano.3c06828DOI Listing

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