Obtaining V2(PO4)3 by sodium extraction from single-phase NaxV2(PO4)3 (1 < x < 3) positive electrode materials

IF 37.2 1区 材料科学 Q1 CHEMISTRY, PHYSICAL
Sunkyu Park, Ziliang Wang, Kriti Choudhary, Jean-Noël Chotard, Dany Carlier, François Fauth, Pieremanuele Canepa, Laurence Croguennec, Christian Masquelier
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Abstract

We report on single-phase NaxV2(PO4)3 compositions (1.5 ≤ x ≤ 2.5) of the Na super ionic conductor type, obtained from a straightforward synthesis route. Typically, chemically prepared c-Na2V2(PO4)3, obtained by annealing an equimolar mixture of Na3V2(PO4)3 and NaV2(PO4)3, exhibits a specific sodium-ion distribution (occupancy of the Na(1) site of only 0.66(4)), whereas that of the electrochemically obtained e-Na2V2(PO4)3 (from Na3V2(PO4)3) is close to 1. Unlike conventional Na3V2(PO4)3, when used as positive electrode materials in Na-ion batteries, the NaxV2(PO4)3 compositions lead to unusual single-phase Na+ extraction/insertion mechanisms with continuous voltage changes upon Na+ extraction/insertion. We demonstrate that the average equilibrium operating voltage observed upon Na+ deintercalation from single-phase Na2V2(PO4)3 is increased up to an average value of ~3.70 V versus Na+/Na (thanks to the activation of the V4+/V5+ redox couple) compared to 3.37 V versus Na+/Na in conventional Na3V2(PO4)3, thus leading to an increase in the theoretical energy density from 396.3 Wh kg–1 to 458.1 Wh kg–1. Electrochemical and chemical Na+ deintercalation from c-Na2V2(PO4)3 enables complete Na-ion extraction, increasing energy density.

Abstract Image

从单相 NaxV2(PO4)3 (1 < x < 3) 正极材料中通过钠萃取获得 V2(PO4)3
我们报告了通过直接合成路线获得的 Na 超级离子导体类型的单相 NaxV2(PO4)3 成分(1.5 ≤ x ≤ 2.5)。通常情况下,通过对 Na3V2(PO4)3 和 NaV2(PO4)3 的等摩尔混合物进行退火处理而化学制备的 c-Na2V2(PO4)3 显示出特定的钠离子分布(Na(1) 位点的占有率仅为 0.66(4)),而电化学制备的 e-Na2V2(PO4)3(来自 Na3V2(PO4)3)则接近 1。与传统的 Na3V2(PO4)3 不同,NaxV2(PO4)3 成分在用作瑙离子电池的正极材料时,会产生不同寻常的单相 Na+ 抽取/插入机制,并且在 Na+ 抽取/插入时会产生连续的电压变化。我们证明,从单相 Na2V2(PO4)3 中脱出 Na+ 时观察到的平均平衡工作电压与 Na+/Na 相比提高到 ~3.70 V(得益于 V4+/V5+ 氧化还原偶的激活),而传统 Na3V2(PO4)3 中与 Na+/Na 相比为 3.37 V,因此理论能量密度从 396.3 Wh kg-1 提高到 458.1 Wh kg-1。c-Na2V2(PO4)3 中 Na+ 的电化学和化学脱闰使 Na 离子完全提取出来,从而提高了能量密度。
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来源期刊
Nature Materials
Nature Materials 工程技术-材料科学:综合
CiteScore
62.20
自引率
0.70%
发文量
221
审稿时长
3.2 months
期刊介绍: Nature Materials is a monthly multi-disciplinary journal aimed at bringing together cutting-edge research across the entire spectrum of materials science and engineering. It covers all applied and fundamental aspects of the synthesis/processing, structure/composition, properties, and performance of materials. The journal recognizes that materials research has an increasing impact on classical disciplines such as physics, chemistry, and biology. Additionally, Nature Materials provides a forum for the development of a common identity among materials scientists and encourages interdisciplinary collaboration. It takes an integrated and balanced approach to all areas of materials research, fostering the exchange of ideas between scientists involved in different disciplines. Nature Materials is an invaluable resource for scientists in academia and industry who are active in discovering and developing materials and materials-related concepts. It offers engaging and informative papers of exceptional significance and quality, with the aim of influencing the development of society in the future.
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