Construction of a Free-Standing Bismuth Carbon Nanofiber-Based Composite Anode Integrated with Molybdenum Disulfide for High-Performance Sodium-Ion Batteries
Gaorui Mai, Xin Tian, Zining Mei, Qinglin Deng, Lingmin Yao

TL;DR
This paper presents a new free-standing anode material for sodium-ion batteries that combines bismuth, molybdenum disulfide, and carbon to achieve high performance and long cycle life.
Contribution
The novel composite anode design integrates Bi@MoS2@C nanofibers for enhanced capacity and stability in sodium-ion batteries.
Findings
The composite anode achieved an initial specific capacity of 275.31 mA h g−1 at 0.5 A g−1.
It retained 96.07% capacity after 800 cycles, outperforming pristine MoS2.
The free-standing structure and synergistic effects improved conductivity and volume stability.
Abstract
Developing free-standing electrodes without the need of metal current collectors, binders, and conductive additives are essential for promoting the development of sodium-ion batteries (SIBs) to attain higher energy density. In this study, we developed and effectively synthesized a novel three-dimensional free-standing sodium-ion battery anode material with the composition of Bi@MoS2@C carbon nanofibers by cleverly utilizing the energy storage advantages of each material. By growing MoS2 nanospheres on Bi carbon nanofibers and coating them with a carbon layer, this free-standing system achieves both structural optimization and synergistic performance enhancement. Experimental results show that this composite electrode has a remarkably high initial specific capacity of 275.31 mA h g−1 at a current density of 0.5 A g−1, significantly exceeding that of Bi carbon nanofibers (150.6 mA h g−1).…
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Taxonomy
TopicsAdvancements in Battery Materials · Advanced Battery Materials and Technologies · Advanced battery technologies research
