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Full text | |
Author(s): |
Eckert, Hellmut
;
Martins Rodrigues, Ana Candida
Total Authors: 2
|
Document type: | Journal article |
Source: | MRS BULLETIN; v. 42, n. 3, p. 206-212, MAR 2017. |
Web of Science Citations: | 8 |
Abstract | |
Glass-ceramics have gained considerable importance for applications in high-energy technology. Li- and Na-superionic ion-conducting ceramics find widespread use in lithium-and sodium-ion batteries as separators, solid electrolytes, and cathode materials. The ionic conductivity of these materials is influenced by crystal chemical parameters and can be further optimized via microstructural control using glass-ceramic processing. This article summarizes the most promising glass-ceramic material systems currently in use, detailing recent progress in understanding their structure-property-performance relationships. We also highlight the power and potential of solid-state nuclear magnetic resonance techniques for providing quantitative knowledge about structure, phase composition, and ion dynamics in these materials. (AU) | |
FAPESP's process: | 13/07793-6 - CEPIV - Center for Teaching, Research and Innovation in Glass |
Grantee: | Edgar Dutra Zanotto |
Support Opportunities: | Research Grants - Research, Innovation and Dissemination Centers - RIDC |