Disordered Ionic Conductors

Research output: Contribution to conferenceAbstract

Abstract

Systems with structural disorder are considered as promising potential candidates in numerous applications for reliable electrical energy storage in future applications such as the next generation of Li-ion batteries and Solid Oxide Fuel Cells. Li-ion conducting systems are significant due to their remarkable ionic conductivity and their attractive properties such as better stability and higher capacity. We focus on the investigation of the atomistic phenomena in order to efficiently determinate the factors that affect the processes of self-diffusion and conductivity.
Original languageEnglish
Publication statusPublished - 8 Sep 2016
Event3rd "Energy Materials" Symposium - University of Bath, Bath, United Kingdom
Duration: 8 Sep 2016 → …
http://energy-materials.org.uk/symposium-2016/4591784140

Conference

Conference3rd "Energy Materials" Symposium
CountryUnited Kingdom
CityBath
Period8/09/16 → …
Internet address

Fingerprint

Ionic conductivity
Solid oxide fuel cells (SOFC)
Energy storage
Ions
Lithium-ion batteries

Cite this

Kordatos, A., Christopoulos, S., Fitzpatrick, M., & Chroneos, A. (2016). Disordered Ionic Conductors. Abstract from 3rd "Energy Materials" Symposium, Bath, United Kingdom.

Disordered Ionic Conductors. / Kordatos, Apostolos; Christopoulos, Stavros; Fitzpatrick, Michael; Chroneos, Alexander.

2016. Abstract from 3rd "Energy Materials" Symposium, Bath, United Kingdom.

Research output: Contribution to conferenceAbstract

Kordatos, A, Christopoulos, S, Fitzpatrick, M & Chroneos, A 2016, 'Disordered Ionic Conductors' 3rd "Energy Materials" Symposium, Bath, United Kingdom, 8/09/16, .
Kordatos A, Christopoulos S, Fitzpatrick M, Chroneos A. Disordered Ionic Conductors. 2016. Abstract from 3rd "Energy Materials" Symposium, Bath, United Kingdom.
Kordatos, Apostolos ; Christopoulos, Stavros ; Fitzpatrick, Michael ; Chroneos, Alexander. / Disordered Ionic Conductors. Abstract from 3rd "Energy Materials" Symposium, Bath, United Kingdom.
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AB - Systems with structural disorder are considered as promising potential candidates in numerous applications for reliable electrical energy storage in future applications such as the next generation of Li-ion batteries and Solid Oxide Fuel Cells. Li-ion conducting systems are significant due to their remarkable ionic conductivity and their attractive properties such as better stability and higher capacity. We focus on the investigation of the atomistic phenomena in order to efficiently determinate the factors that affect the processes of self-diffusion and conductivity.

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