The kinetic stability of the T' phase in MoS2 arises from S-S repulsive interactions that raise barriers for nucleation and grain boundary motion, with sulfur vacancies migrating away from the stable ZZ-Mo|- interface rather than accelerating transformation.
& Furthmüller, J
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cond-mat.mtrl-sci 2years
2026 2verdicts
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FeTe exhibits a large, field-tunable intrinsic anomalous Hall effect driven by Berry curvature that is highly sensitive to temperature and magnetic field strength.
citing papers explorer
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Phase transformation kinetics in MoS2 governed by S-S repulsive interactions and defect-interface compatibility
The kinetic stability of the T' phase in MoS2 arises from S-S repulsive interactions that raise barriers for nucleation and grain boundary motion, with sulfur vacancies migrating away from the stable ZZ-Mo|- interface rather than accelerating transformation.
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Berry curvature and field-induced intrinsic anomalous Hall effect in an antiferromagnet FeTe
FeTe exhibits a large, field-tunable intrinsic anomalous Hall effect driven by Berry curvature that is highly sensitive to temperature and magnetic field strength.