Wei-Yan Cong scite author profile

Single magnetic atoms absorbed on an atomically thin layer represent the ultimate limit of bit miniaturization for data storage. To approach the limit, a critical step is to find an appropriate material system with high chemical stability and large magnetic anisotropic energy. Here, on the basis of first-principles calculations and the spin-orbit coupling theory, it is elucidated that the transition-metal Mn and Fe atoms absorbed on disulfur vacancies of MoS2 monolayers are very promising candidates. It is analysed that these absorption systems are of not only high chemical stabilities but also much enhanced magnetic anisotropies and particularly the easy magnetization axis is changed from the in-plane one for Mn to the out-of-plane one for Fe by a symmetry-lowering Jahn-Teller distortion. The results point out a promising direction to achieve the ultimate goal of single adatomic magnets with utilizing the defective atomically thin layers.

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Light enhanced moisture degradation of perovskite solar cell material CH₃NH₃PbI₃

Cong

Guan

et al. 2019

J. Mater. Chem. A

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Investigation of the Mn dopant-enhanced photoluminescence performance of lead-free Cs₂AgInCl₆ double perovskite crystals

Cong

Guan

et al. 2020

Phys. Chem. Chem. Phys.

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Wei-Yan Cong

Enhanced Magnetic Anisotropies of Single Transition-Metal Adatoms on a Defective MoS2 Monolayer

Light enhanced moisture degradation of perovskite solar cell material CH₃NH₃PbI₃

Investigation of the Mn dopant-enhanced photoluminescence performance of lead-free Cs₂AgInCl₆ double perovskite crystals

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Wei-Yan Cong

Enhanced Magnetic Anisotropies of Single Transition-Metal Adatoms on a Defective MoS2 Monolayer

Light enhanced moisture degradation of perovskite solar cell material CH3NH3PbI3

Investigation of the Mn dopant-enhanced photoluminescence performance of lead-free Cs2AgInCl6 double perovskite crystals

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Light enhanced moisture degradation of perovskite solar cell material CH₃NH₃PbI₃

Investigation of the Mn dopant-enhanced photoluminescence performance of lead-free Cs₂AgInCl₆ double perovskite crystals