在固体电解质和电极界面处具有原子级有序结构可降低界面电阻。

Atomically Well-Ordered Structure at Solid Electrolyte and Electrode Interface Reduces the Interfacial Resistance.

机构信息

Department of Applied Chemistry , Nippon Institute of Technology , Saitama 345-8501 , Japan.

Advanced Institute for Materials Research (AIMR) , Tohoku University , Sendai , Miyagi 980-8577 , Japan.

出版信息

ACS Appl Mater Interfaces. 2018 Dec 5;10(48):41732-41737. doi: 10.1021/acsami.8b08926. Epub 2018 Nov 22.

DOI:10.1021/acsami.8b08926

PMID:30465729

Abstract

Using synchrotron surface X-ray diffraction, we investigated the atomic structures of the interfaces of a solid electrolyte (LiPO) and electrode (LiCoO). We prepared two types of interfaces with high and low interface resistances; the low-resistance interface exhibited a flat and well-ordered atomic arrangement at the electrode surface, whereas the high-resistance interface showed a disordered interface. These results indicate that the crystallinity of LiCoO at the interface has a significant impact on interface resistance. Furthermore, we reveal that the migration of Li ions along the interface and into grain boundaries and antiphase domain boundaries is a critical factor reducing interface resistance.

摘要

利用同步辐射表面 X 射线衍射，我们研究了固体电解质 (LiPO) 和电极 (LiCoO) 界面的原子结构。我们制备了两种具有高、低界面电阻的界面；低电阻界面在电极表面呈现出平坦且有序的原子排列，而高电阻界面则呈现出无序的界面。这些结果表明，界面处 LiCoO 的结晶度对界面电阻有显著影响。此外，我们揭示了锂离子沿着界面以及晶界和反相畴界的迁移是降低界面电阻的关键因素。

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在固体电解质和电极界面处具有原子级有序结构可降低界面电阻。

Atomically Well-Ordered Structure at Solid Electrolyte and Electrode Interface Reduces the Interfacial Resistance.

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