通过 MOVPE 技术在图案化的石墨烯上选择性生长高质量六方氮化硼

Vishnu Ottapilakkal, Abhishek Juyal, Suresh Sundaram, Phuong Vuong, Collin Beck, Noel L. Dudeck, Amira Bencherif, Annick Loiseau, Frédéric Fossard, Jean-Sebastien Mérot, David Chapron, Thomas H. Kauffmann, Jean-Paul Salvestrini, Paul L. Voss, Walt A. de Heer, Claire Berger, Abdallah Ougazzaden
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摘要

六方氮化硼封装是保护石墨烯免受环境掺杂和杂质散射影响的首选方法。以前的研究表明,金属有机气相外延(MOVPE)可以在石墨烯(生长在碳化硅上的石墨烯)上生长出外延有序、均匀的氮化硼层。由于石墨烯的非润湿特性,h-BN 的生长优先从石墨烯的边缘开始。我们在此利用这一事实,通过在 BN 生长之前对石墨烯微观结构进行图案化,有选择性地促进了高质量平面 h-BN 在石墨烯上的生长。通过 MOVPE 技术生长的 h-BN 薄膜(小至 6 nm)在表石墨烯上显示出光滑和褶皱的表面形态,而在碳化硅上则观察到了皱巴巴的 BN。横截面高分辨率透射电子显微镜图像和荧光成像证实了在表石墨烯上生长的 BN 质量更高。传输测量结果显示,表石墨烯的氢掺杂产生了预期的 p 掺杂以及高和低迁移率区域。这种方法可用于制备结构均匀的高质量 h-BN/表石墨烯微/纳米级异质结构。
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High-quality hexagonal boron nitride selectively grown on patterned epigraphene by MOVPE
Hexagonal boron nitride encapsulation is the method of choice for protecting graphene from environmental doping and impurity scattering. It was previously demonstrated that metal-organic vapor phase epitaxy (MOVPE) grows epitaxially ordered, uniform BN layers on epigraphene (graphene grown on SiC). Due to graphene non-wetting properties, h-BN growth starts preferentially from the graphene ledges. We use this fact here to selectively promote growth of high-quality flat h-BN on epigraphene by patterning epigraphene microstructures prior to BN growth. Thin h-BN films (down to 6 nm) grown by MOVPE show smooth and pleated surface morphology on epigraphene, while crumpled BN is observed on the SiC. Cross-sectional high-resolution transmission electron microscopy images and fluorescence imaging confirm the higher BN quality grown on the epigraphene. Transport measurements reveal p-doping as expected from hydrogen intercalation of epigraphene and regions of high and low mobility. This method can be used to produce structurally uniform high-quality h-BN/epigraphene micro/nano scale heterostructure.
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