Song Yang, Qian Kai, Tao Lei, Wang Zhenyu, Guo Hui, Chen Hui, Zhang Shuai, Zhang Yu-Yang, Lin Xiao, Pantelides Sokrates T, Du Shixuan, Gao Hong-Jun
Institute of Physics and University of Chinese Academy of Sciences, Chinese Academy of Sciences, Beijing, 100190, China.
Beijing National Laboratory for Condensed Matter Physics, Chinese Academy of Sciences, Beijing, 100190, China.
Small. 2022 Jan;18(4):e2102687. doi: 10.1002/smll.202102687. Epub 2021 Nov 30.
Since the advent of graphene ushered the era of 2D materials, many forms of hydrogenated graphene have been reported, exhibiting diverse properties ranging from a tunable bandgap to ferromagnetic ordering. Patterned hydrogenated graphene with micron-scale patterns has been fabricated by lithographic means. Here, successful millimeter-scale synthesis of an intrinsically honeycomb-patterned form of hydrogenated graphene on Ru(0001) by epitaxial growth followed by hydrogenation is reported. Combining scanning tunneling microscopy observations with density-functional-theory (DFT) calculations, it is revealed that an atomic-hydrogen layer intercalates between graphene and Ru(0001). The result is a hydrogen honeycomb structure that serves as a template for the final hydrogenation, which converts the graphene into graphane only over the template, yielding honeycomb-patterned hydrogenated graphene (HPHG). In effect, HPHG is a form of patterned graphane. DFT calculations find that the unhydrogenated graphene regions embedded in the patterned graphane exhibit spin-polarized edge states. This type of growth mechanism provides a new pathway for the fabrication of intrinsically patterned graphene-based materials.
自从石墨烯的出现开启了二维材料的时代以来,人们已经报道了多种形式的氢化石墨烯,其展现出从可调节带隙到铁磁有序等多样的性质。通过光刻手段制备出了具有微米级图案的图案化氢化石墨烯。在此,报道了通过外延生长随后氢化在Ru(0001)上成功合成毫米级本征蜂窝图案形式的氢化石墨烯。将扫描隧道显微镜观察结果与密度泛函理论(DFT)计算相结合,结果表明在石墨烯和Ru(0001)之间插入了一层原子氢。其结果是形成了一种氢蜂窝结构,该结构作为最终氢化的模板,仅在模板上使石墨烯转化为石墨烷,从而得到蜂窝图案化氢化石墨烯(HPHG)。实际上,HPHG是图案化石墨烷的一种形式。DFT计算发现,嵌入图案化石墨烷中的未氢化石墨烯区域呈现出自旋极化边缘态。这种生长机制为制备本征图案化的石墨烯基材料提供了一条新途径。
