2018年第79回応用物理学会秋季学術講演会

講演情報

一般セッション(ポスター講演)

17 ナノカーボン » 17 ナノカーボン(ポスター)

[18p-PB3-1~95] 17 ナノカーボン(ポスター)

2018年9月18日(火) 16:00 〜 18:00 PB (白鳥ホール)

16:00 〜 18:00

[18p-PB3-68] Direct Synthesis of Graphene on Glass Using Low Temperature Microwave Plasma Enhanced Chemical Vapor Deposition

〇(P)Riteshkumar Ratneshkumar Vishwakarma1、Zhu Rucheng1、Amr Abuelwafa1、Golap Kalita1,2、Sudip Adhikari1,3、Masayashi Umeno1 (1.C`s Techno Inc.、2.Nagoya Inst. of Tech、3.Chubu University)

キーワード:Direct graphene growth, Low temperature, MPCVD

With a combination of outstanding properties and wide spectrum of applications, graphene has emerged as a substantial nanomaterial. However, in order to realize its full potential for practical applications, a number of obstacles have to be overcome. The presence of defects, grain boundaries, structural disorders, wrinkles significantly affect electronic and optical properties of graphene. Electronic applications require large graphene samples, which can be provided by chemical vapor deposition (CVD) process at the moment, but it is difficult to produce high quality, single crystal graphene with high electrical and thermal properties with excellent optical transparency. Thermal CVD process is optimum for large area synthesis of graphene. Nevertheless, the transfer process in CVD, may not be suitable for applications using a large substrate, including large-scale integrated (LSI) circuits and large-screen displays. In order to avoid transfer process in CVD, there is need of direct growth of graphene on insulating substrates and also low-temperature growth will be much desired for substrates less tolerant to heat [1, 2]. For this purpose, an attempt has been made to grow large area graphene at 500oC directly on glass using microwave plasma CVD. Fig1 (a) below shows photographic image of glass after deposition indicating a uniform and large area deposition on glass surface. Raman spectrum in fig1 (b) with G and 2D peaks at 1580 cm-1 and 2690 cm-1 resp. confirms direct graphene growth on glass. Graphene/glass surface has 80% transparency and average sheet resistance 2kΩ.