Substrate induced changes in atomically thin 2-dimensional semiconductors: Fundamentals, engineering, and applications

Sun, Y · 2017

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Giant Rashba Splitting and Enhanced Nonlinear Berry-Phase Responses in Sliding-Tunable vdW MXene Heterostructures

cond-mat.mtrl-sci · 2026-05-10 · unverdicted · novelty 6.0

First-principles study of MXene/CrBr3 heterostructures predicts giant Rashba splitting of 2.53 eV Å, enhanced nonlinear responses, and sliding-induced quantum anomalous Hall phase via proximity exchange and stacking control.

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Giant Rashba Splitting and Enhanced Nonlinear Berry-Phase Responses in Sliding-Tunable vdW MXene Heterostructures cond-mat.mtrl-sci · 2026-05-10 · unverdicted · none · ref 4
First-principles study of MXene/CrBr3 heterostructures predicts giant Rashba splitting of 2.53 eV Å, enhanced nonlinear responses, and sliding-induced quantum anomalous Hall phase via proximity exchange and stacking control.

Substrate induced changes in atomically thin 2-dimensional semiconductors: Fundamentals, engineering, and applications

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