Affiliation:
1. Institute of Advanced Optoelectronic Materials and Technology College of Big Data and Information Engineering Guizhou University Guiyang 550025 P. R. China
Abstract
AbstractAqueous sodium‐ion batteries (ASIB) offer many potential applications in large‐scale power grids since they are inexpensive, safe, and environmentally friendly. Sodium superionic conductors (NASICON), especially carbon‐coated Na3V2(PO4)3 (NVP), have attracted much attention due to the full use of their high ion migration speed. However, the poor cycle lifespan and capacity retention of NVP hinder its application in ASIB. Herein, a novel bimetal‐doped Na3V1.3Fe0.5W0.2(PO4)3 (NV1.3Fe0.5W0.2P) cathode is designed and synthesized to achieve outstanding cycling stability (95 % of initial capacity at 50th cycle). The electrochemical behavior and charge storage mechanism of NV1.3Fe0.5W0.2P are systematically investigated by various in situ and ex situ characterizations. The Fe and W codoping could stabilize the NASICON framework to suppress the proton attack on the Na site in the aqueous electrolyte, thus resulting in excellent cycling stability. DFT calculations show that bimetallic doping increases the structural stability of NVP. Moreover, an ASIB fabricated using a NV1.3Fe0.5W0.2P cathode and a NaTi2(PO4)3 anode delivers 64 mAh g−1 at room temperature, 95 % capacity retention after 50 cycles (1 A g−1).
Subject
General Energy,General Materials Science,General Chemical Engineering,Environmental Chemistry
Cited by
9 articles.
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