Accelerating the Phase Formation Kinetics of Alluaudite Sodium Iron Sulfate Cathodes via Ultrafast Thermal Shock

Liu, Yuhang; Han, Yujun; Song, Zijing; Song, Wanqing; Miao, Zhikai; Chen, Yanan; Ding, Jia; Hu, Wenbin

doi:10.1021/acsami.3c19618

ACS Appl. Mater. Interfaces

2024

DOI: 10.1021/acsami.3c19618

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Accelerating the Phase Formation Kinetics of Alluaudite Sodium Iron Sulfate Cathodes via Ultrafast Thermal Shock

Yuhang Liu,

Yujun Han,

Zijing Song

et al.

Abstract: Alluaudite sodium iron sulfate (NFS) exhibits great potential for use in sodium-ion battery cathodes due to its elevated operating potential and abundant element reserves. However, conventional solid-state methods demonstrate a low heating/ cooling rate and sluggish reaction kinetics, requiring a long thermal treatment to effectively fabricate NFS cathodes. Herein, we propose a thermal shock (TS) strategy to synthesize alluaudite sodium iron sulfate cathodes using either hydrous or anhydrous raw materials. The… Show more

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Cited by 3 publications

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Transitioning from anhydrous Stanfieldite-type Na2Fe(SO4)2 Precursor to Alluaudite-type Na2+2δFe2-δ(SO4)3/C composite cathode: A pathway to cost-effective and all-climate sodium-ion batteries

Yang,

Liu,

Yang

et al. 2025

Energy Storage Materials

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Transitioning from anhydrous Stanfieldite-type Na2Fe(SO4)2 Precursor to Alluaudite-type Na2+2δFe2-δ(SO4)3/C composite cathode: A pathway to cost-effective and all-climate sodium-ion batteries

Yang,

Liu,

Yang

et al. 2025

Energy Storage Materials

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Progress and perspectives of rapid Joule heating for the preparation of highly efficient catalysts

Zhao,

Wu,

et al. 2025

Mater. Horiz.

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A Comprehensive Review on Iron-Based Sulfate Cathodes for Sodium-Ion Batteries

Zheng,

Zhang,

Jiang

et al. 2024

Nanomaterials

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Sodium-ion batteries (SIBs) are advantageous for large-scale energy storage due to the plentiful and ubiquitous nature of sodium resources, coupled with their lower cost relative to alternative technologies. To expedite the market adoption of SIBs, enhancing the energy density of SIBs is essential. Raising the operational voltage of the SIBs cathode is regarded as an effective strategy for achieving this goal, but it requires stable high-voltage cathode materials. Sodium iron sulfate (NFSO) is considered to be a promising cathode material due to its stable framework, adjustable structure, operational safety, and the high electronegativity of SO4-. This paper reviews the research progress of NFSO, discusses its structure and sodium storage mechanism on this basis, and summarizes the advantages and disadvantages of NFSO cathode materials. This study also evaluates the advancements in enhancing the electrochemical characteristics and structural reliability of SIBs, drawing on both domestic and international research. The findings of this paper offer valuable insights into the engineering and innovation of robust and viable SIB cathodes based on NFSO at ambient temperatures, contributing to their commercial viability.

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Accelerating the Phase Formation Kinetics of Alluaudite Sodium Iron Sulfate Cathodes via Ultrafast Thermal Shock

Cited by 3 publications

References 51 publications

Transitioning from anhydrous Stanfieldite-type Na2Fe(SO4)2 Precursor to Alluaudite-type Na2+2δFe2-δ(SO4)3/C composite cathode: A pathway to cost-effective and all-climate sodium-ion batteries

Transitioning from anhydrous Stanfieldite-type Na2Fe(SO4)2 Precursor to Alluaudite-type Na2+2δFe2-δ(SO4)3/C composite cathode: A pathway to cost-effective and all-climate sodium-ion batteries

Progress and perspectives of rapid Joule heating for the preparation of highly efficient catalysts

A Comprehensive Review on Iron-Based Sulfate Cathodes for Sodium-Ion Batteries

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