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Paper detail

Graphene stabilization of two-dimensional gallium nitride

The spectrum of two-dimensional (2D) materials beyond graphene offers a remarkable platform to study new phenomena in condensed matter physics. Among these materials, layered hexagonal boron nitride (hBN), with its wide bandgap energy (~5.0-6.0 eV), has clearly established that 2D nitrides are key to advancing novel devices1. A gap, however, remains between the theoretical prediction of 2D nitrides beyond hBN and experimental realization of such structures. Here we demonstrate the synthesis of 2D gallium nitride (GaN) via a novel migration-enhanced encapsulated growth (MEEG) technique utilizing epitaxial graphene. We theoretically predict and experimentally validate that the atomic structure of 2D GaN grown via MEEG is notably different from reported theory. Moreover, we establish that graphene plays a critical role in stabilizing the direct-bandgap (nearly 5.0 eV), 2D buckled structure. Our results provide a foundation for discovery and stabilization of novel 2D nitrides that are difficult to prepare via traditional synthesis.

preprint2016arXivOpen access
Zakaria Y. Al BalushiKe WangRam Krishna GhoshRafael A. ViláSarah M. EichfeldPaul A. DeSarioDennis F. PaulJoshua D. CaldwellSuman DattaJoan M. RedwingJoshua A. Robinson
cond-mat.mtrl-sci
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Zakaria Y. Al BalushiKe WangRam Krishna GhoshRafael A. ViláSarah M. EichfeldPaul A. DeSarioDennis F. PaulJoshua D. CaldwellSuman DattaJoan M. RedwingJoshua A. Robinson

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