石墨烯生长和表征:进展、挑战和前景

J. U. Arikpo, M. Onuu
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引用次数: 5

摘要

石墨烯成为各国凝聚态研究人员认真研究的材料,并取得重大进展,距今已有十年左右的时间。因此,本文对石墨烯的生长和表征:进展、面临的挑战和展望是及时的。讨论了石墨烯及其技术、石墨烯的历史和发展趋势以及石墨烯的生长和合成等基本问题。还介绍了基本和机械性能,结构和形态性能表征使用不同的技术。石墨烯在生物医学和射频应用、透明电子、集成电路、量子点、倍频器、光调制器和压电以及作为电池超级电容器方面的应用和用途是石墨烯的一些应用和用途。研究发现,降低石墨烯的生长温度有利于石墨烯与其他材料和工艺的相容性,也可以减少冷却引起的起皱对石墨烯形貌的影响;介电衬底上的生长;能够解决与金属生长基质相关的许多问题;通过衬底工程更好地控制石墨烯上附加层的形成和延伸,这将导致石墨烯的一些进展和未来的前景。此外,石墨烯的可调带隙对微电子至关重要,这是当前挑战之一,可能在不久的将来实现。虽然理论和计算分析已经证明已经解决了石墨烯的零带隙问题,但更多令人信服的方法将解决这个问题,并为高性能石墨烯器件的制造让路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Graphene Growth and Characterization: Advances, Present Challenges and Prospects
It is about a decade since graphene became a material for serious research by researchers in condensed matter of various nationalities making significant progress. This paper on graphene growth and characterization: advances, present challenges and prospects is therefore timely. Basic topics such as graphene and graphene technology, history and trend of graphene as well as graphene growth and synthesis have been discussed. Also presented are fundamental and mechanical properties, structural and morphological property characterization using different techniques. Graphene in biomedical and radio frequency applications, transparent electronics, integrated circuits, quantum dots, frequency multiplier, optical modulator and piezoelectricity and as a battery super capacitor are some applications and uses of graphene that have been considered. The lowering of the growth temperature of graphene has been found to be beneficial for the compartibility with other materials and processes and could also decrease the impact of cooling-induced wrinkling on the morphology of graphene; the growth on dielectric substrates; being able to resolve many problems associated with metallic growth substrates; better control of both the formation and the extension of additional layers on the graphene through substrate engineering that will result in approaches of graphene that is envisaged are some of the advances and future prospects. Also, the proposed tunable bandgap for graphene which is essential for microelectronics which contributes one of the present challenges is likely to be achieved in the very near future. Although theoretical and computational analyses have proved to have solved the zero bandgap problem of graphene, more convincing approaches that will solve the problem and give way for the fabrication of high performance graphene device are being awaited.
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