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Modulation of Remote Epitaxial Heterointerface by Graphene-Assisted Attenuative Charge Transfer

Yuning Wang, Yipu Qu, Yu Xu, Didi Li, Zhengqian Lu, Jianjie Li, Xujun Su, Guobin Wang, Lin Shi, X. H. Zeng, Jianfeng Wang, Bing Cao, Ke Xu

2023ACS Nano28 citationsDOI

Abstract

Remote epitaxy (RE), substrate polarity can "penetrate" two-dimensional materials (2DMs) and act on the epi-layer, showing a prospective universal growth strategy. However, essentially, the role that 2DMs plays in RE has not been deeply investigated so far. Here, the RE of single-crystal films on the weakest polarity/iconicity substrate is realized to reveal its essence physical properties. Graphene facilitates attenuative charge transfer (ACT) from a substrate to epi-layer to construct remote interactions. Interfacial atoms are assembled into "incommensurate" epitaxial relationships through graphene to reduce misfit dislocations in the epi-layer. Moreover, graphene reduces the atomic migration barrier, leading to a tendency toward a "layer-by-layer" growth mode. Such film growth mode is different with the conventional epitaxy (CE), and it is beneficial for the fast growth of epi-layers and the reduction of dislocations at coalescence boundaries. The insightful revelation of the role of graphene reveals the interface physics of RE and provides a more valuable guide to using 2DMs to expand three-dimensional materials (3DMs) for application in devices.

Topics & Concepts

GrapheneMaterials scienceEpitaxyCoalescence (physics)Substrate (aquarium)OptoelectronicsCondensed matter physicsLayer (electronics)NanotechnologyChemical physicsPhysicsAstrobiologyGeologyOceanographyGraphene research and applications2D Materials and ApplicationsGa2O3 and related materials
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