AI Article Synopsis
- Metal selenides are being explored as effective anode materials for sodium-ion batteries due to their high capacity, good conductivity, and abundance, but they struggle with capacity retention and lifespan issues.
- These problems mainly arise from volume changes and structural failures when large sodium ions are inserted and extracted during battery operation.
- The article outlines strategies to improve these materials, such as designing nanostructures, engineering composites, doping with heteroatoms, and optimizing surface features, while also suggesting future research directions.
Article Abstract
Metal selenides have garnered significant attention as promising anode materials for sodium-ion batteries, thanks to their high theoretical capacity, excellent conductivity, and natural abundance. However, their potential is hampered by disappointing capacity retention and unsatisfactory lifespan, primarily attributed to volume expansion and unwanted structural collapse resulting from the insertion and extraction of relatively large Na ions during the charge and discharge processes. This feature article provides a brief overview of our endeavors to address the challenges associated with metal selenide-based anode materials, aiming to achieve high-performance electrode materials for sodium-ion batteries. Our strategy encompasses nanostructure design, materials composite engineering, heteroatoms doping, and topography and interface engineering. Additionally, future research directions are also outlined.
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| http://dx.doi.org/10.1039/d4cc01974a | DOI Listing |
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