Commensurate, Incommensurate, and Reconstructed Structures of Multilayer Transition Metal Dichalcogenide and Their Applications DOI Open Access

H. Oh,

Younghyun You, Seung Yun Lee

et al.

Small, Journal Year: 2025, Volume and Issue: unknown

Published: March 19, 2025

Abstract Multilayer transition metal dichalcogenides (ML‐TMDs) with commensurate, incommensurate, and reconstructed structures, have emerged as a class of 2D materials unique properties that differ significantly from their monolayer counterparts. While previous research has focused on monolayers, the discovery various novel sparked interest in multilayers diverse structures engineered through stacking. These are characterized by interactions between layers exhibit remarkable tunability structural, optical, electronic behaviors depending stacking order, twist angle, interlayer coupling. This review provides an overview ML‐TMDs explores such band structure, optical responses, ferroelectricity, anomalous Hall effect. Various synthetic methods employed to fabricate ML‐TMDs, including mechanical chemical vapor deposition techniques, emphasis achieving precise control angles layer configurations, discussed. study further potential applications nanoelectronics, optoelectronics, quantum devices, where can be harnessed for next‐generation technologies. The critical role played these development future devices is highlighted.

Language: Английский

Commensurate, Incommensurate, and Reconstructed Structures of Multilayer Transition Metal Dichalcogenide and Their Applications DOI Open Access

H. Oh,

Younghyun You, Seung Yun Lee

et al.

Small, Journal Year: 2025, Volume and Issue: unknown

Published: March 19, 2025

Abstract Multilayer transition metal dichalcogenides (ML‐TMDs) with commensurate, incommensurate, and reconstructed structures, have emerged as a class of 2D materials unique properties that differ significantly from their monolayer counterparts. While previous research has focused on monolayers, the discovery various novel sparked interest in multilayers diverse structures engineered through stacking. These are characterized by interactions between layers exhibit remarkable tunability structural, optical, electronic behaviors depending stacking order, twist angle, interlayer coupling. This review provides an overview ML‐TMDs explores such band structure, optical responses, ferroelectricity, anomalous Hall effect. Various synthetic methods employed to fabricate ML‐TMDs, including mechanical chemical vapor deposition techniques, emphasis achieving precise control angles layer configurations, discussed. study further potential applications nanoelectronics, optoelectronics, quantum devices, where can be harnessed for next‐generation technologies. The critical role played these development future devices is highlighted.

Language: Английский

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