Achieving ultrastability and efficient lithium storage capacity with high-energy iron(<scp>ii</scp>) oxalate anode materials by compositing Ge nano-conductive sites

Song, Tingyu; Gao, Geng; Cui, Dingfang; Wang, Chong; Zhang, Hui; Feng, Liang; Yang, Bin; Zhang, Keyu; Yao, Yaochun

doi:10.1039/d2nr06422g

Nanoscale

2023

DOI: 10.1039/d2nr06422g

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Achieving ultrastability and efficient lithium storage capacity with high-energy iron(ii) oxalate anode materials by compositing Ge nano-conductive sites

Tingyu Song

Geng Gao

Dingfang Cui³

et al.

Abstract: Transition metal oxalates (TMOxs, represented by iron oxalate) have attracted considerable interest in anode materials due to their excellent lithium storage properties and consistent cyclic performance.

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Cited by 7 publications

References 67 publications

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Polymorphism of anhydrous iron(II) oxalate

Heger,

Kopp,

Procházka

et al. 2023

Chem. Pap.

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Recently, iron(II) oxalate has experienced a renewed interest due to their newly found application in lithium-ion batteries. Lithium is expected to be embedded between the oxalate sheets, dramatically increasing the need to understand the oxalate structure. Despite being known for decades, the discrepancies still exist regarding the anhydrous iron(II) oxalate. In this work, we explore the dehydration process of both α-FeC2O4·2H2O and β-FeC2O4·2H2O polymorphs at different heating rates and calcination temperatures by X-ray powder diffraction, Mössbauer spectroscopy and scanning electron microscopy. After dehydration, iron(II) oxalates formed two polymorphs with different XRD patterns: α-FeC2O4 with sharp and narrow diffraction lines and β-FeC2O4 with very broadened lines, which were attributed to the monoclinic structure with space group P21/n.

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Polymorphism of anhydrous iron(II) oxalate

Heger,

Kopp,

Procházka

et al. 2023

Chem. Pap.

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Active prelithiation strategies for advanced lithium storage systems: A perspective from electrochemical mechanism to structural design and application

Jin,

Zhang,

Gao

et al. 2024

Chemical Engineering Journal

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Crystal and micro-nano structure bidirectional regulation of iron oxalate for high-lithium storage and ultralong-cycling life via ultrasound assistance

Zhao,

Zhang,

Gao

et al. 2024

Chemical Engineering Journal

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Achieving ultrastability and efficient lithium storage capacity with high-energy iron(ii) oxalate anode materials by compositing Ge nano-conductive sites

Abstract: Transition metal oxalates (TMOxs, represented by iron oxalate) have attracted considerable interest in anode materials due to their excellent lithium storage properties and consistent cyclic performance.

Cited by 7 publications

References 67 publications

Polymorphism of anhydrous iron(II) oxalate

Polymorphism of anhydrous iron(II) oxalate

Active prelithiation strategies for advanced lithium storage systems: A perspective from electrochemical mechanism to structural design and application

Crystal and micro-nano structure bidirectional regulation of iron oxalate for high-lithium storage and ultralong-cycling life via ultrasound assistance

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