होम
एक्सप्लोर
nav.journalClub
ट्रेंडिंग
और
synapse
⌘+K
भाषा
हिन्दी
हिन्दी
March 3, 2026
Interface-engineered built-in electric fields in g-C3N4/Cs2CuBr4 non-classical Type-I heterostructures for selective CO2-to-CO conversion
LD
Lizhuang Dong
MR
Mohammad Mehdi Rashidi
Tongji University
DK
Dr. Sonu Kumar
See all
Key Points
CO2-to-CO conversion efficiency significantly improves in interface-engineered heterostructures.
The electric fields created within the g-C3N4/Cs2CuBr4 system enhance the reaction dynamics considerably.
Experimentation utilized advanced interface engineering techniques to create built-in electric fields.
Research highlights the importance of tailored heterostructures for sustainable energy applications.
Mark Helpful
Like
Save
Bookmark
Relay
Share
Mark Helpful
Like
Save
Bookmark
Relay
Share
Interface-engineered built-in electric fields in g-C3N4/Cs2CuBr4 non-classical Type-I heterostructures for selective CO2-to-CO conversion | Synapse
Cite This Study
Copy
Dong et al. (Fri,) studied this question.
synapsesocial.com/papers/69a766f9badf0bb9e87df235
https://doi.org/https://doi.org/10.1016/j.cej.2026.173817