锂钴氧化物的电化学可调热导率。

Electrochemically tunable thermal conductivity of lithium cobalt oxide.

机构信息

Department of Materials Science and Engineering, Frederick Seitz Materials Research Laboratory, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA.

Department of Chemical and Biomolecular Engineering, North Carolina State University, Raleigh, North Carolina 27695, USA.

出版信息

Nat Commun. 2014 Jun 3;5:4035. doi: 10.1038/ncomms5035.

DOI:10.1038/ncomms5035

PMID:24892640

Abstract

Using time-domain thermoreflectance, the thermal conductivity and elastic properties of a sputter deposited LiCoO2 film, a common lithium-ion cathode material, are measured as a function of the degree of lithiation. Here we report that via in situ measurements during cycling, the thermal conductivity of a LiCoO2 cathode reversibly decreases from ~5.4 to 3.7 W m(-1) K(-1), and its elastic modulus decreases from 325 to 225 GPa, as it is delithiated from Li1.0CoO2 to Li0.6CoO2. The dependence of the thermal conductivity on lithiation appears correlated with the lithiation-dependent phase behaviour. The oxidation-state-dependent thermal conductivity of electrolytically active transition metal oxides provides opportunities for dynamic control of thermal conductivity and is important to understand for thermal management in electrochemical energy storage devices.

摘要

利用时域热反射法，测量了溅射沉积的 LiCoO2 薄膜（一种常见的锂离子阴极材料）的热导率和弹性性能随锂化程度的变化。本文报道了在循环过程中的原位测量结果，LiCoO2 阴极的热导率从约 5.4 W m(-1) K(-1)可逆地降低到 3.7 W m(-1) K(-1)，其弹性模量从 325 GPa 降低到 225 GPa，因为它从 Li1.0CoO2 脱锂到 Li0.6CoO2。热导率对锂化的依赖性似乎与锂化依赖性的相行为有关。电解质活性过渡金属氧化物的氧化态依赖性热导率为动态控制热导率提供了机会，对于理解电化学储能器件中的热管理非常重要。

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锂钴氧化物的电化学可调热导率。

Electrochemically tunable thermal conductivity of lithium cobalt oxide.

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