Unveiling the Nanoarchitectonics of Interfacial Electronic Coupling in Atomically Thin 2D WO<sub>3</sub>/WSe<sub>2</sub> Heterostructure for Sodium‐Ion Storage in Aqueous System

Pragati A. Shinde; Vikram Mahamiya; Moein Safarkhani; Nilesh R. Chodankar; Masaki Ishii; Renzhi Ma; Amal Al Ghaferi; Lok Kumar Shrestha; Katsuhiko Ariga

Article Unveiling the Nanoarchitectonics of Interfacial Electronic Coupling in Atomically Thin 2D WO₃/WSe₂ Heterostructure for Sodium‐Ion Storage in Aqueous System

Pragati A. Shinde (National Institute for Materials Science) ; Vikram Mahamiya ; Moein Safarkhani ; Nilesh R. Chodankar ; Masaki Ishii (National Institute for Materials Science) ; Renzhi Ma (National Institute for Materials Science) ; Amal Al Ghaferi ; Lok Kumar Shrestha (National Institute for Materials Science) ; Katsuhiko Ariga

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Pragati A. Shinde, Vikram Mahamiya, Moein Safarkhani, Nilesh R. Chodankar, Masaki Ishii, Renzhi Ma, Amal Al Ghaferi, Lok Kumar Shrestha, Katsuhiko Ariga. Unveiling the Nanoarchitectonics of Interfacial Electronic Coupling in Atomically Thin 2D WO₃/WSe₂ Heterostructure for Sodium‐Ion Storage in Aqueous System. Advanced Functional Materials. 2024, 34 (41), 2406333.

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Aqueous sodium (Na+) ion storage systems face challenges due to sluggish adsorption and diffusion of Na+ ions with larger sizes, hindering their potential for stationary applications. We have addressed this issue by evolving the interfacial electronic coupling in atomically thin 2D WO3/WSe2 heterostructure for efficient Na+ storage.

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