Tetragonal Tungsten Oxide for Supercapacitor Electrodes: Study of Phase-Driven Charge Storage Mechanism and Work Function Control

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초록

The crystal phase of pseudocapacitive materials significantly influences charge storage kinetics and capacitance; yet, the underlying mechanisms remain poorly understood. This study focuses on tungsten oxide (WO3), a material exhibiting multiple crystal phases with potential for energy storage. Despite extensive research on WO3, the impact of different crystal structures on charge storage properties remains largely unexplored. Here, the successful synthesis and electrochemical characterization of tetragonal WO3 are reported. This investigation demonstrates that tetragonal WO3 exhibits superior energy storage capabilities compared to other WO3 polymorphs. According to in situ Raman spectroscopy and ultraviolet photoelectron spectroscopy combined with in-depth electrochemical analyses, this enhancement is attributed to a unique charge storage mechanism and an expanded potential window facilitated by an engineered electrode work function. This study highlights the critical role of the crystal phase in optimizing the performance of pseudocapacitive materials and provides valuable insights for the development of next-generation energy storage devices.

키워드

charge storage mechanismpotential window modulationtetragonal WO3tungsten oxidework functionENERGY-STORAGEIMPEDANCE SPECTROSCOPYSTRUCTURAL WATERTHIN-FILMSWO3TRANSFORMATIONTEMPERATURENANOSHEETSSPHERES
제목
Tetragonal Tungsten Oxide for Supercapacitor Electrodes: Study of Phase-Driven Charge Storage Mechanism and Work Function Control
저자
Hussain, Sk. KhajaKim, Min SooThota, RajuJoo, Sang-WooBang, Jin Ho
DOI
10.1002/smtd.202401854
발행일
2025-07
유형
Article
저널명
SMALL METHODS
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