Son Seungwoo, Cho Yeonchoo, Hong Hyo-Ki, Lee Jongyeong, Kim Jung Hwa, Kim Kangsik, Lee Yeongdong, Yoon Aram, Shin Hyeon-Jin, Lee Zonghoon
Center for Multidimensional Carbon Materials, Institute for Basic Science (IBS), Ulsan 44919, Republic of Korea.
Department of Materials Science and Engineering, Ulsan National Institute of Science and Technology (UNIST), Ulsan 44919, Republic of Korea.
ACS Appl Mater Interfaces. 2020 Dec 2;12(48):54222-54229. doi: 10.1021/acsami.0c18291. Epub 2020 Nov 18.
Graphene-based two-dimensional heterostructures are of substantial interest both for fundamental studies and their various potential applications. Particularly interesting are atomically thin semiconducting oxides on graphene, which uniquely combine a wide band gap and optical transparency. Here, we report the atomic-scale investigation of a novel self-formation of a ZnO monolayer from the Zn metal on a graphene oxide substrate. The spontaneous oxidation of the ultrathin Zn metal occurs by a reaction with oxygen supplied from the graphene oxide substrate, and graphene oxide is deoxygenated by a transfer of oxygen from O-containing functional groups to the zinc metal. The ZnO monolayer formed by this spontaneous redox reaction shows a graphene-like structure and a band gap of about 4 eV. This study demonstrates a unique and straightforward synthetic route to atomically thin two-dimensional heterostructures made from a two-dimensional metal oxide and graphene, formed by the spontaneous redox reaction of a very thin metal layer directly deposited on graphene oxide.
基于石墨烯的二维异质结构因其基础研究价值和各种潜在应用而备受关注。特别值得关注的是石墨烯上的原子级薄半导体氧化物,它们独特地结合了宽带隙和光学透明性。在此,我们报告了在氧化石墨烯衬底上由锌金属自发形成新型氧化锌单层的原子尺度研究。超薄锌金属的自发氧化通过与氧化石墨烯衬底提供的氧反应发生,并且氧化石墨烯通过氧从含氧化官能团转移到锌金属而脱氧。通过这种自发氧化还原反应形成的氧化锌单层呈现出类似石墨烯的结构和约4 eV的带隙。这项研究展示了一种独特且直接的合成路线,可用于由二维金属氧化物和石墨烯制成的原子级薄二维异质结构,该结构通过直接沉积在氧化石墨烯上的超薄金属层的自发氧化还原反应形成。
