Issue 18, 2024

Niobium sulfide nanocomposites as cathode materials for all-solid-state lithium batteries with enhanced electrochemical performance

Abstract

All-solid-state lithium batteries coupled with transition metal sulfide cathodes have gained significant attention due to their high energy density and exceptional safety. However, there are still critical challenges impeding their practical application, such as limited capacity delivery, weak ionic reaction kinetics and volume expansion. Herein, an a-NbS4/20%VGCF@15%Li7P3S11 nanocomposite cathode material is employed in all-solid-state batteries. A certain proportion of VGCF is introduced into crystalline NbS4 in order to mitigate the volume expansion and improve electronic conductivity. At the same time, a-NbS4/20%VGCF is in situ coated with a Li7P3S11 solid electrolyte layer to achieve an intimate interfacial contact. The obtained a-NbS4/20%VGCF@15%Li7P3S11 nanocomposite exhibits a remarkable electronic conductivity (1.0 × 10−1 S cm−1) and ionic conductivity (5.5 × 10−4 S cm−1), which are improved by five and two orders of magnitude compared to those of NbS4, respectively. The Li/Li6PS5Cl/a-NbS4/20%VGCF@15%Li7P3S11 battery exhibits a high initial discharge capacity of 1043.25 mA h g−1 at 0.1 A g−1. Even at 0.5 A g−1, it could provide a reversible capacity of 403.2 mA h g−1 after 500 cycles. This work provides a promising cathode material for all-solid-state lithium batteries with improved ionic/electronic conductivity, high reversible capacity and superior cycling stability.

Graphical abstract: Niobium sulfide nanocomposites as cathode materials for all-solid-state lithium batteries with enhanced electrochemical performance

Supplementary files

Article information

Article type
Paper
Submitted
11 ማርች 2024
Accepted
09 ኤፕሪ 2024
First published
19 ኤፕሪ 2024

Nanoscale, 2024,16, 8915-8921

Niobium sulfide nanocomposites as cathode materials for all-solid-state lithium batteries with enhanced electrochemical performance

N. Wang, M. Chang, W. Xie, G. Liu, L. Zhang, H. He and X. Yao, Nanoscale, 2024, 16, 8915 DOI: 10.1039/D4NR01035C

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