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Home»News»Collaborative review unveils the potential of graphene in advancing nitride semiconductor technology
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Collaborative review unveils the potential of graphene in advancing nitride semiconductor technology

January 6, 2024No Comments3 Mins Read
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Collaborative review unveils the potential of graphene in advancing nitride semiconductor technology
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Application of transfer-free graphene on insulating substrates for III-nitride epitaxy. Credit: Science China Press

In a comprehensive review, researchers from Soochow University, Beijing Graphene Institute and Xiamen Silan Advanced Compound Semiconductor Co., Ltd. have collaborated to provide a systematic overview of the progress and potential applications of graphene as a buffer layer for nitride epitaxial growth.

The paper brings together perspectives from academia, research institutions, and semiconductor industry professionals to propose solutions for critical issues in semiconductor technology.

Graphene, a two-dimensional material known for its exceptional electrical and mechanical properties, has garnered significant interest for its prospective use in the growth of nitride semiconductors. Despite notable advancements in the chemical vapor deposition (CVD) growth of graphene on various insulating substrates, producing high-quality graphene and achieving optimal interface compatibility with Group III-nitride materials remain major challenges in the field.

The review provides an in-depth look at the bottlenecks in transferred graphene manufacturing techniques and the latest advancements in transfer-free graphene growth. It also discusses the current progress in growing transfer-free graphene on different insulating substrates and its potential applications in nitride epitaxy.

Collaborative review unveils the potential of graphene in advancing nitride semiconductor technology
Ground section of Hypacrosaurus (MOR 548) supraoccipital shows exceptional histological preservation of calcified cartilage. (A) An isolated supraoccipital (So) of Hypacrosaurus in dorsal view. (B–D) Ground section of another So showing calcified cartilage with hypertrophic chondrocyte lacunae. (C) Some cell doublets appear empty (green arrow), but others (pink arrow) present darker, condensed material consistent in shape and location with a nucleus (white arrows). (D) Dark, condensed, and elongated material with morphological characteristics of metaphase chromosomes. The limit of the cell lacuna is visible (black arrow). (E) Caudal view of a juvenile emu skull (∼8–10 months old) showing the So and exoccipitals (Exo) in articulation. (F, G) Ground section (stained with Toluidine blue) of calcified cartilage from this emu skull showing cell doublets (pink arrows) with remnants of nuclei (white arrows) and others without intracellular content (green arrow). Credit: Science China Chemistry (2023). DOI: 10.1007/s11426-023-1769-y

The paper further outlines the promising future of transfer-free graphene growth technology in the nitride epitaxy sector and identifies the challenges that must be overcome to harness its full potential. With a thorough analysis of existing literature, the review serves as a technical and application guide for using graphene in nitride epitaxial growth, encouraging further research in the area.

This review not only offers valuable information to researchers and practitioners but also charts a course for future research directions and technological innovations in the field of nitride epitaxial growth.

See also  What Are the Applications of Nanoceramics?

Provided by
Science China Press



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Advancing Collaborative Graphene Nitride Potential Review Semiconductor technology Unveils
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