| Literature DB >> 26144549 |
Beomjin Park1, Jaesung Park2,3,4, Jin Gyeong Son5,6,7, Yong-Jin Kim2,3, Seong Uk Yu8,9, Hyo Ju Park10, Dong-Hun Chae4, Jinseok Byun1, Gumhye Jeon1, Sung Huh5,6, Seoung-Ki Lee11, Artem Mishchenko3, Seung Hyun1, Tae Geol Lee7, Sang Woo Han5,6, Jong-Hyun Ahn11, Zonghoon Lee10, Chanyong Hwang12, Konstantin S Novoselov3, Kwang S Kim9, Byung Hee Hong2, Jin Kon Kim1.
Abstract
Precise graphene patterning is of critical importance for tailor-made and sophisticated two-dimensional nanoelectronic and optical devices. However, graphene-based heterostructures have been grown by delicate multistep chemical vapor deposition methods, limiting preparation of versatile heterostructures. Here, we report one-pot synthesis of graphene/amorphous carbon (a-C) heterostructures from a solid source of polystyrene via selective photo-cross-linking process. Graphene is successfully grown from neat polystyrene regions, while patterned cross-linked polystyrene regions turn into a-C because of a large difference in their thermal stability. Since the electrical resistance of a-C is at least 2 orders of magnitude higher than that for graphene, the charge transport in graphene/a-C heterostructure occurs through the graphene region. Measurement of the quantum Hall effect in graphene/a-C lateral heterostructures clearly confirms the reliable quality of graphene and well-defined graphene/a-C interface. The direct synthesis of patterned graphene from polymer pattern could be further exploited to prepare versatile heterostructures.Entities:
Keywords: amorphous carbon; bottom-up growth; graphene; graphene growth from polymer; graphene-based heterostructure
Year: 2015 PMID: 26144549 DOI: 10.1021/acsnano.5b03037
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881