AI Article Synopsis
- Vanadium phosphate (VPO) is promising for use in lithium and sodium ion batteries due to its low cost and high capacity, but it faces challenges like poor electrical conductivity and volume expansion that hinder its performance.
- Researchers developed a new method to embed VPO in a carbon framework (3DHP-VPO@C) using a nanostructured hybrid hydrogel, which helps improve stability and conductivity through P-C bonding.
- The resulting anode shows impressive lithium ion storage capabilities (957 mA h/g at 0.1 A g and 345.3 mA h/g at 5 A g) and excellent cycling stability when paired with a LiFePO cathode in full cells.
Article Abstract
Vanadium phosphate (VPO) is attracting extensive attention because of its advantages of low cost, stable structure and high theoretical capacity. However, similar to other phosphates, VPO suffers from low electrical conductivity and large volume expansion, adversely influencing its electrochemical performance and thus limiting its application as an anode in lithium and sodium ion batteries. Herein, we propose a novel, facile strategy based on the organic-inorganic network of a nanostructured hybrid hydrogel for immobilizing VPO in a hierarchically porous carbon framework (3DHP-VPO@C). VPO chemically interacts with the carbon framework via a P-C bond, functioning as a buffer layer to maintain structural stability during charge/discharge cycles. The carbon framework offers an efficient pathway for electron and Li/Na transport to ensure high electronic conductivity of the electrode. The 3DHP-VPO@C anode exhibits excellent lithium and sodium storage performances, and notably high capacities of 957 mA h g at 0.1 A g and 345.3 mA h g at 5 A g for lithium ion batteries. Full cells consisting of a LiFePO cathode and the 3DHP-VPO@C anode also prove to have superior cycling stability and rate performance for LIBs.
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| http://dx.doi.org/10.1039/d0nr00460j | DOI Listing |
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