A sodium ion intercalation material: A comparative study of amorphous and crystalline FePO4

Wei Wang; Shubo Wang; Handong Jiao; Pan Zhan; Shuqiang Jiao

doi:10.1039/c4cp05764c

A sodium ion intercalation material: A comparative study of amorphous and crystalline FePO₄

Wei Wang, Shubo Wang, Handong Jiao, Pan Zhan, Shuqiang Jiao^*

^*Corresponding author for this work

University of Science and Technology Beijing

Research output: Contribution to journal › Article › peer-review

26 Citations (Scopus)

Abstract

Due to their low cost, high abundance and eco-friendly features, Na-ion batteries are becoming alternative choices for rechargeable batteries, especially in large scale applications. Generally, the well-crystallized materials have many advantages over amorphous materials, such as long cycle life, high rate performance and other electrochemical properties. However, the amorphous FePO₄ we report here exhibits outstanding cycling stability and rate performance which are derived from its amorphous nature and wafer-like porous morphology. A comparative study of amorphous and crystalline FePO₄ has been carried out as cathode materials for Na-ion batteries. The present study not only reports a synthetic method which is facile, inexpensive, and scalable for mass production, but it also motivates further exploration of other amorphous materials for Na-ion batteries.

Original language	English
Pages (from-to)	4551-4557
Number of pages	7
Journal	Physical Chemistry Chemical Physics
Volume	17
Issue number	6
DOIs	https://doi.org/10.1039/c4cp05764c
Publication status	Published - 14 Feb 2015
Externally published	Yes

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AU - Zhan, Pan

AU - Jiao, Shuqiang

PY - 2015/2/14

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N2 - Due to their low cost, high abundance and eco-friendly features, Na-ion batteries are becoming alternative choices for rechargeable batteries, especially in large scale applications. Generally, the well-crystallized materials have many advantages over amorphous materials, such as long cycle life, high rate performance and other electrochemical properties. However, the amorphous FePO4 we report here exhibits outstanding cycling stability and rate performance which are derived from its amorphous nature and wafer-like porous morphology. A comparative study of amorphous and crystalline FePO4 has been carried out as cathode materials for Na-ion batteries. The present study not only reports a synthetic method which is facile, inexpensive, and scalable for mass production, but it also motivates further exploration of other amorphous materials for Na-ion batteries.

AB - Due to their low cost, high abundance and eco-friendly features, Na-ion batteries are becoming alternative choices for rechargeable batteries, especially in large scale applications. Generally, the well-crystallized materials have many advantages over amorphous materials, such as long cycle life, high rate performance and other electrochemical properties. However, the amorphous FePO4 we report here exhibits outstanding cycling stability and rate performance which are derived from its amorphous nature and wafer-like porous morphology. A comparative study of amorphous and crystalline FePO4 has been carried out as cathode materials for Na-ion batteries. The present study not only reports a synthetic method which is facile, inexpensive, and scalable for mass production, but it also motivates further exploration of other amorphous materials for Na-ion batteries.

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A sodium ion intercalation material: A comparative study of amorphous and crystalline FePO₄

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