Interface Storage Mechanism in Aqueous Ammonium-Ion Supercapacitors with Keggin-Type Polyoxometalates-Modified Ag-BTC.

Adv Mater

Key Laboratory of Polyoxometalate and Reticular Material Chemistry of Ministry of Education, Faculty of Chemistry, Northeast Normal University, Changchun, 130024, P. R. China.

Published: December 2024

Ammonium-ion supercapacitors (AISCs) offer considerable potential for future development owing to their low cost, high safety, environmental sustainability, and efficient electrochemical energy storage capabilities. The rapid and efficient charge-transfer process at the AISC can endow them with high capacitive and cycling stabilities. However, the prolonged intercalation/deintercalation of NH in layered and framework materials often results in the cleavage of the active sites and the deconstruction of the framework, which makes it difficult to achieve long-term stable energy storage while maintaining high capacitance in the electrode materials. Herein, highly redox-active polyoxometalates (POMs) modified [Ag(µ-Hbtc)(µ-Hbtc)] (Ag-BTC) is used as electrode materials. POMs effectively promote the pseudocapacitance storage of NH through a similar interface storage mechanism. At a current density of 1 A g, {PMo}@Ag-BTC exhibited a specific capacitance of 619.4 mAh g and retained 100% of its capacitance after 20,000 charge-discharge cycles. An asymmetrical battery with {PMo}@Ag-BTC and {PW}@Ag-BTC as positive and negative electrode materials, respectively, achieved an energy density of 125.3 Wh kg. The interface-capacitance process enables the full utilization of metal-O (x = b, c, t) sites within the POMs, significantly enhancing charge storage. This study emphasizes the considerable potential of POM-based electrode materials for NH intercalation/deintercalation energy storage.

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Source
http://dx.doi.org/10.1002/adma.202415545DOI Listing

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