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首页> 外文期刊>Advanced functional materials >A Novel Pentanary Metal Oxide Cathode with P2/O3 Biphasic Structure for High-Performance Sodium-Ion Batteries
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A Novel Pentanary Metal Oxide Cathode with P2/O3 Biphasic Structure for High-Performance Sodium-Ion Batteries

机译:A Novel Pentanary Metal Oxide Cathode with P2/O3 Biphasic Structure for High-Performance Sodium-Ion Batteries

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摘要

The rapid capacity loss suffered by P2-type Mn-based layered oxide cathode materials, caused by deleterious high-voltage phase transformations and the dissolution of active materials, greatly limits their application in largescale sodium-ion battery installations. In this study, a novel P2/O3 biphasic cathode is developed using a multi-element (Fe, Mg, and Li) co-substitution strategy. The results of ex situ X-ray diffraction analyses and the absence of significant voltage plateaus in the charge-discharge profiles of cells featuring the proposed cathode indicate that deleterious phase transformations and concomitant lattice mismatch in the high-voltage region are effectively suppressed because of the topotactic intergrown structure of the resulting cathode. The optimized cathode also demonstrates improved structural stability and enhanced Na~+ diffusion kinetics, owing to the incorporation of stabilizing dopant pillars and suppressed metal-ion dissolution. Hence, the resulting Na half cell demonstrates a high initial capacity of 170.5 mA h g~(?1) at 0.1 C and excellent rate capability (106.6 mA h g~(?1) at 10 C). Furthermore, the resulting Na full cell, featuring a hard carbon anode, displays excellent cycling stability (72.1 capacity retention after 400 cycles), demonstrating its practical viability. This study presents the design and optimization of highperformance Mn-based cathodes.

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