Mechanical properties of transition metal dichalcogenides: towards high-performance polymer nanocomposites DOI Creative Commons
Dimitrios G. Papageorgiou,

Dong Ming,

Han Zhang

et al.

2D Materials, Journal Year: 2024, Volume and Issue: 12(1), P. 012002 - 012002

Published: Dec. 12, 2024

Abstract Transition metal dichalcogenides (TMDs) exhibit excellent tensile strength, flexibility, and resilience due to their unique layered structure, where atoms are sandwiched between two layers of chalcogen atoms. The strong in-plane covalent bonds weak van der Waals forces allow for easy exfoliation exceptional mechanical performance at the nanoscale. This review focuses on properties few-layer TMDs integration into polymer matrices create high-performance nanocomposites. Incorporating these polymers results in significant improvements modulus, strength toughness. explores various incorporation techniques, emphasizing how methods influence composite. Additionally, highlights impact strain engineering TMDs. By applying controlled deformation along with situ Raman photoluminescence spectroscopy, intrinsic can be explored a high degree precision then finely tuned further enhance composite materials. Next, we present materials bulk nanocomposites optimised through understanding micromechanics that show is applicable even Finally, summarise large amount literature upon reinforcement by conclusions effectiveness as function filler content.

Language: Английский

Mechanical properties of transition metal dichalcogenides: towards high-performance polymer nanocomposites DOI Creative Commons
Dimitrios G. Papageorgiou,

Dong Ming,

Han Zhang

et al.

2D Materials, Journal Year: 2024, Volume and Issue: 12(1), P. 012002 - 012002

Published: Dec. 12, 2024

Abstract Transition metal dichalcogenides (TMDs) exhibit excellent tensile strength, flexibility, and resilience due to their unique layered structure, where atoms are sandwiched between two layers of chalcogen atoms. The strong in-plane covalent bonds weak van der Waals forces allow for easy exfoliation exceptional mechanical performance at the nanoscale. This review focuses on properties few-layer TMDs integration into polymer matrices create high-performance nanocomposites. Incorporating these polymers results in significant improvements modulus, strength toughness. explores various incorporation techniques, emphasizing how methods influence composite. Additionally, highlights impact strain engineering TMDs. By applying controlled deformation along with situ Raman photoluminescence spectroscopy, intrinsic can be explored a high degree precision then finely tuned further enhance composite materials. Next, we present materials bulk nanocomposites optimised through understanding micromechanics that show is applicable even Finally, summarise large amount literature upon reinforcement by conclusions effectiveness as function filler content.

Language: Английский

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