Phase interface engineering of defect-rich 1T/2H-WX 2 /RGO (X = S, Se) nanosheets for efficient microwave absorption and supercapacitor applications
Key Points
The central aim is to improve material performance in microwave absorption and supercapacitor applications through phase regulation.
Investigated interfacial processes in WX2/RGO nanosheets.
Regulated phases of materials to assess their impact on performance.
Evaluated comprehensive material properties for microwave absorption and supercapacitors.
Enhanced microwave absorption properties noted in defect-rich nanosheets.
Improved performance metrics for supercapacitor applications.
Demonstrated effective phase regulation mechanisms leading to better material efficiency.
Abstract
The purpose of this study is to enhance the comprehensive performance of materials in microwave absorption and supercapacitors by investigating the interfacial processes and the phase regulation mechanisms.
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Phase interface engineering of defect-rich 1T/2H-WX 2 /RGO (X = S, Se) nanosheets for efficient microwave absorption and supercapacitor applications | Synapse