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Growth of Wafer‐Scale Single‐Crystal 2D Semiconducting Transition Metal Dichalcogenide Monolayers
https://orcid.org/0000-0002-9894-1006
AbstractDue to extraordinary electronic and optoelectronic properties, large‐scale single‐crystal two‐dimensional (2D) semiconducting transition metal dichalcogenide (TMD) monolayers have gained significant interest in the development of profit‐making cutting‐edge nano and atomic‐scale devices. To explore the remarkable properties of single‐crystal 2D monolayers, many strategies are proposed to achieve ultra‐thin functional devices. Despite substantial attempts, the controllable growth of high‐quality single‐crystal 2D monolayer still needs to be improved. The quality of the 2D monolayer strongly depends on the underlying substrates primarily responsible for the formation of grain boundaries during the growth process. To restrain the grain boundaries, the epitaxial growth process plays a crucial role and becomes ideal if an appropriate single crystal substrate is selected. Therefore, this perspective focuses on the latest advances in the growth of large‐scale single‐crystal 2D TMD monolayers in the light of enhancing their industrial applicability. In the end, recent progress and challenges of 2D TMD materials for various potential applications are highlighted.
Growth of Wafer‐Scale Single‐Crystal 2D Semiconducting Transition Metal Dichalcogenide Monolayers
https://orcid.org/0000-0002-9894-1006
AbstractDue to extraordinary electronic and optoelectronic properties, large‐scale single‐crystal two‐dimensional (2D) semiconducting transition metal dichalcogenide (TMD) monolayers have gained significant interest in the development of profit‐making cutting‐edge nano and atomic‐scale devices. To explore the remarkable properties of single‐crystal 2D monolayers, many strategies are proposed to achieve ultra‐thin functional devices. Despite substantial attempts, the controllable growth of high‐quality single‐crystal 2D monolayer still needs to be improved. The quality of the 2D monolayer strongly depends on the underlying substrates primarily responsible for the formation of grain boundaries during the growth process. To restrain the grain boundaries, the epitaxial growth process plays a crucial role and becomes ideal if an appropriate single crystal substrate is selected. Therefore, this perspective focuses on the latest advances in the growth of large‐scale single‐crystal 2D TMD monolayers in the light of enhancing their industrial applicability. In the end, recent progress and challenges of 2D TMD materials for various potential applications are highlighted.
Growth of Wafer‐Scale Single‐Crystal 2D Semiconducting Transition Metal Dichalcogenide Monolayers
https://orcid.org/0000-0002-9894-1006
AbstractDue to extraordinary electronic and optoelectronic properties, large‐scale single‐crystal two‐dimensional (2D) semiconducting transition metal dichalcogenide (TMD) monolayers have gained significant interest in the development of profit‐making cutting‐edge nano and atomic‐scale devices. To explore the remarkable properties of single‐crystal 2D monolayers, many strategies are proposed to achieve ultra‐thin functional devices. Despite substantial attempts, the controllable growth of high‐quality single‐crystal 2D monolayer still needs to be improved. The quality of the 2D monolayer strongly depends on the underlying substrates primarily responsible for the formation of grain boundaries during the growth process. To restrain the grain boundaries, the epitaxial growth process plays a crucial role and becomes ideal if an appropriate single crystal substrate is selected. Therefore, this perspective focuses on the latest advances in the growth of large‐scale single‐crystal 2D TMD monolayers in the light of enhancing their industrial applicability. In the end, recent progress and challenges of 2D TMD materials for various potential applications are highlighted.
Growth of Wafer‐Scale Single‐Crystal 2D Semiconducting Transition Metal Dichalcogenide Monolayers
Advanced Science
Singh, Jitendra (author) / Astarini, Nadiya Ayu (author) / Tsai, Meng‐Lin (author) / Venkatesan, Manikandan (author) / Kuo, Chi‐Ching (author) / Yang, Chan‐Shan (author) / Yen, Hung‐Wei (author)
Advanced Science ; 11
2024-03-01
Article (Journal)
Electronic Resource
English
Growth of Wafer‐Scale Single‐Crystal 2D Semiconducting Transition Metal Dichalcogenide Monolayers
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