Janus MP2S3Se3 monolayers exhibit valley-contrasting spin textures with Ising-type at K valleys and Weyl plus Rashba at Gamma, plus valley-dependent anomalous Hall currents and optical selectivity that are tunable by strain.
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Misfit layer compounds enable tunable electron doping in NbSe2 monolayers via La/Pb alloying in the rocksalt layer, producing rigid Fermi level shifts while preserving the 2D electronic structure, as verified by DFT and ARPES.
MoSe2/PdSe2 type-I heterostructures achieve a six-fold room-temperature A-exciton photoluminescence enhancement to 6% quantum yield via interlayer coupling that redirects populations away from non-radiative and B-exciton channels.
citing papers explorer
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Valley-contrasting Spin Textures in Janus Metal Phosphochalcogenides
Janus MP2S3Se3 monolayers exhibit valley-contrasting spin textures with Ising-type at K valleys and Weyl plus Rashba at Gamma, plus valley-dependent anomalous Hall currents and optical selectivity that are tunable by strain.
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Tuning the Charge Transfer of Transition Metal Dichalcogenides via Misfit Layer Compounds
Misfit layer compounds enable tunable electron doping in NbSe2 monolayers via La/Pb alloying in the rocksalt layer, producing rigid Fermi level shifts while preserving the 2D electronic structure, as verified by DFT and ARPES.
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Highly Efficient Exciton Modulation in MoSe$_2$/PdSe$_2$ Heterostructures
MoSe2/PdSe2 type-I heterostructures achieve a six-fold room-temperature A-exciton photoluminescence enhancement to 6% quantum yield via interlayer coupling that redirects populations away from non-radiative and B-exciton channels.