Single-crystal, large-area, fold-free monolayer graphene

石墨烯 材料科学 单层 化学气相沉积 晶界 箔法 开尔文探针力显微镜 垂直的 单晶 结晶学 纳米技术 化学 复合材料 微观结构 数学 原子力显微镜 几何学
作者
Meihui Wang,Ming Huang,Da Luo,Yunqing Li,Myeonggi Choe,Won Kyung Seong,Min-Hyeok Kim,Sunghwan Jin,Mengran Wang,Shahana Chatterjee,Youngwoo Kwon,Zonghoon Lee,Rodney S. Ruoff
出处
期刊:Nature [Springer Nature]
卷期号:596 (7873): 519-524 被引量:263
标识
DOI:10.1038/s41586-021-03753-3
摘要

Chemical vapour deposition of carbon-containing precursors on metal substrates is currently the most promising route for the scalable synthesis of large-area, high-quality graphene films1. However, there are usually some imperfections present in the resulting films: grain boundaries, regions with additional layers (adlayers), and wrinkles or folds, all of which can degrade the performance of graphene in various applications2–7. There have been numerous studies on ways to eliminate grain boundaries8,9 and adlayers10–12, but graphene folds have been less investigated. Here we explore the wrinkling/folding process for graphene films grown from an ethylene precursor on single-crystal Cu–Ni(111) foils. We identify a critical growth temperature (1,030 kelvin) above which folds will naturally form during the subsequent cooling process. Specifically, the compressive stress that builds up owing to thermal contraction during cooling is released by the abrupt onset of step bunching in the foil at about 1,030 kelvin, triggering the formation of graphene folds perpendicular to the step edge direction. By restricting the initial growth temperature to between 1,000 kelvin and 1,030 kelvin, we can produce large areas of single-crystal monolayer graphene films that are high-quality and fold-free. The resulting films show highly uniform transport properties: field-effect transistors prepared from these films exhibit average room-temperature carrier mobilities of around (7.0 ± 1.0) × 103 centimetres squared per volt per second for both holes and electrons. The process is also scalable, permitting simultaneous growth of graphene of the same quality on multiple foils stacked in parallel. After electrochemical transfer of the graphene films from the foils, the foils themselves can be reused essentially indefinitely for further graphene growth. Restricting the initial growth temperatures used for chemical vapour deposition of graphene on metal foils produces optimum conditions for growing large areas of fold-free, single-crystal graphene.
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