作为钠离子电池阳极的纯 GeFe2O4 和掺杂（锡或镁）的 GeFe2O4

IF 4.6 4区化学 Q2 ELECTROCHEMISTRY

Batteries Pub Date : 2024-04-17 DOI:10.3390/batteries10040134

Marco Ambrosetti, I. Quinzeni, Alessandro Girella, V. Berbenni, B. Albini, Pietro Galinetto, Michela Sturini, M. Bini

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引用次数: 0

摘要

GeFe2O4 (GFO) 是一种锗矿物，其尖晶石晶体结构决定了其有趣的功能特性。最近，人们建议将其用作钠和锂离子电池（SIBs 和 LIBs）的阳极，这得益于其转换和合金化相结合的电化学机制。然而，由于电子导电性差和循环过程中的体积膨胀，它的全部潜力受到了限制。本文对机械化学固态合成获得的纯 GFO 样品、掺锡或掺镁 GFO 样品以及适当的碳涂层进行了结构和电化学表征，并首次提出将其作为 SIB 的阳极。掺杂样品保持了纯 GFO 的尖晶石立方结构。电化学测试证明了预期的氧化还原过程，其中涉及铁离子和 Ge 离子。掺杂锡对长期循环（120 次循环后在 0.2 摄氏度下提供 150 mAh/g）和容量值（0.2 摄氏度下 346 mAh/g，而纯样品为 300 mAh/g）产生了有利影响，而掺杂镁则效果较差。

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Pure and (Sn or Mg) Doped GeFe2O4 as Anodes for Sodium-Ion Batteries

GeFe2O4 (GFO) is a germanium mineral whose spinel crystal structure determines its interesting functional properties. Recently, it was proposed for application as an anode for Sodium and Lithium-Ion Batteries (SIBs and LIBs) thanks to its combined conversion and alloying electrochemical mechanism. However, its entire potential is limited by the poor electronic conductivity and volumetric expansion during cycling. In the present paper, pure and Sn or Mg doped GFO samples obtained from mechano-chemical solid-state synthesis and properly carbon coated were structurally and electrochemically characterized and proposed, for the first time, as anodes for SIBs. The spinel cubic structure of pure GFO is maintained in doped samples. The expected redox processes, involving Fe and Ge ions, are evidenced in the electrochemical tests. The Sn doping demonstrated a beneficial effect on the long-term cycling (providing 150 mAh/g at 0.2 C after 120 cycles) and on the capacity values (346 mAh/g at 0.2 C with respect to 300 mAh/g of the pure one), while the Mg substitution was less effective.

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来源期刊

Batteries Energy-Energy Engineering and Power Technology

CiteScore

4.00

自引率

15.00%

发文量

217

审稿时长

7 weeks