Experimental Visualization of Lithium Diffusion in LixFePO4

Overview

Journal Nat Mater

Date 2008 Aug 12

PMID 18690238

Citations 35

Authors

Shin-Ichi Nishimura

Genki Kobayashi

Kenji Ohoyama

Ryoji Kanno

Masatomo Yashima

Atsuo Yamada

Affiliations

Soon will be listed here.

Abstract

Chemical energy storage using batteries will become increasingly important for future environmentally friendly ('green') societies. The lithium-ion battery is the most advanced energy storage system, but its application has been limited to portable electronics devices owing to cost and safety issues. State-of-the-art LiFePO4 technology as a new cathode material with surprisingly high charge-discharge rate capability has opened the door for large-scale application of lithium-ion batteries such as in plug-in hybrid vehicles. The scientific community has raised the important question of why a facile redox reaction is possible in the insulating material. Geometric information on lithium diffusion is essential to understand the facile electrode reaction of LixFePO4 (0<x<1), but previous approaches have been limited to computational predictions. Here, we provide long-awaited experimental evidence for a curved one-dimensional chain for lithium motion. By combining high-temperature powder neutron diffraction and the maximum entropy method, lithium distribution along the [010] direction was clearly visualized.

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