Static promise versus dynamic reality in a Z -scheme photocatalyst: nonadiabatic dynamics reveal a charge-separation bottleneck in MoSi 2 P 4 /WTe 2
Key Points
This research aims to understand the interfacial carrier dynamics that limit the efficiency of Z-scheme photocatalysts.
Analyzed the charge-separation dynamics in MoSi2P4/WTe2 heterostructures
Utilized nonadiabatic dynamics simulations to assess interfacial interactions
Examined the relationship between static promise and dynamic reality in photocatalytic performance.
Identified a significant charge-separation bottleneck impeding efficiency
Demonstrated complex carrier dynamics at the MoSi2P4/WTe2 interface
Explained how nonadiabatic effects influence charge transfer processes.
Abstract
The practical efficiency of Z -scheme photocatalytic heterostructures is often limited by poorly understood interfacial carrier dynamics.
Like
Bookmark
Share
View Full Paper
Like
Bookmark
Share
View Full Paper
Static promise versus dynamic reality in a Z -scheme photocatalyst: nonadiabatic dynamics reveal a charge-separation bottleneck in MoSi 2 P 4 /WTe 2 | Synapse