Two-dimensional nanosheets of bimetallic chalcogenide-tagged nitrogen-doped carbon as a cathode for high-performance and durable zinc-ion capacitors

Swati J. Patil, Nilesh R. Chodankar, Seung Kyu Hwang, Pragati A. Shinde, Ganji Seeta Rama Raju, Kugalur Shanmugam Ranjith, Smita V. Karekar, Yun Suk Huh, Young Kyu Han

Research output: Contribution to journalArticlepeer-review

9 Scopus citations

Abstract

Zn-ion capacitors (ZICs) are thought to be potential electrochemical energy storage devices due to their complementary energy density, which is comparable to that of batteries, and superior power characteristics when compared to capacitors. However, the electrochemical stability of current ZICs is inadequate due to the structural instability of the Zn anode associated with the dissolution of conventional cathode materials in conventional aqueous electrolytes. Given the rapid growth of metal chalcogenides in electrochemical energy storage applications, the use of bimetallic chalcogenide-based cathodes in ZICs are desirable. Two-dimensional (2D) bimetallic chalcogenide-tagged nitrogen-doped carbon (NbMo6S8/NC) was prepared as a cathode for use with modified conventional electrolytes in ZICs, affording a maximal specific capacity of 167.89 mA h g−1 at 0.25 A g−1 and superior rate capability. The developed NbMo6S8/NC ZIC delivered a battery-like specific energy of 188.87 and 50.22 W h kg−1 at supercapacitor-like power densities of 250 and 2500 W kg−1, respectively. In a flexible ZIC, the resulting NbMo6S8/NC nanosheets (∼10 nm) could withstand 15 000 charge-discharge cycles with an initial capacitive retention of 87.60%. A pair of flexible NbMo6S8/NC ZICs connected in series successfully powered light-emitting diodes, demonstrating high potential applications. These findings suggest that NbMo6S8/NC ZIC is capable of driving portable and smart electronics, demonstrating its functionality in real-world applications.

Original languageEnglish
Pages (from-to)5112-5126
Number of pages15
JournalJournal of Materials Chemistry A
Volume11
Issue number10
DOIs
StatePublished - 23 Dec 2022

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© 2023 The Royal Society of Chemistry.

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