Defect Chemistry and Migration Processes in Disordered Oxides

Research output: Contribution to conferenceAbstract

Abstract

Systems with structural disorder are studied as promising materials in a number of future applications including solid oxide fuel cells (SOFCs) and for the next generation of Li-ion batteries. Li-ion conducting systems are significant due to their remarkable ionic conductivity and their attractive properties such as better stability and higher capacity. Here we discuss the insights gained by atomistic modelling on the intrinsic defects, doping processes and ionic diffusion mechanisms in Li2ZrO3 and TiO2.
Original languageEnglish
Publication statusPublished - Sep 2017
EventEUROMAT 2017: EUROPEAN CONGRESS AND EXHIBITION ON ADVANCED MATERIALS AND PROCESSES - CONFERENCE CULTURAL CENTER "Thesaloniki Concert Hall", Thessaloniki, Greece
Duration: 17 Sep 201722 Sep 2017
http://euromat2017.fems.eu/

Conference

ConferenceEUROMAT 2017
CountryGreece
CityThessaloniki
Period17/09/1722/09/17
Internet address

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Ionic conductivity
Solid oxide fuel cells (SOFC)
Oxides
Doping (additives)
Ions
Defects
lithium zirconate
Lithium-ion batteries

Cite this

Defect Chemistry and Migration Processes in Disordered Oxides. / Kordatos, Apostolos; Kelaidis, Nikolaos; Christopoulos, Stavros; Parfitt, David; Chroneos, Alexander.

2017. Abstract from EUROMAT 2017, Thessaloniki, Greece.

Research output: Contribution to conferenceAbstract

Kordatos, A, Kelaidis, N, Christopoulos, S, Parfitt, D & Chroneos, A 2017, 'Defect Chemistry and Migration Processes in Disordered Oxides' EUROMAT 2017, Thessaloniki, Greece, 17/09/17 - 22/09/17, .
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AU - Kordatos, Apostolos

AU - Kelaidis, Nikolaos

AU - Christopoulos, Stavros

AU - Parfitt, David

AU - Chroneos, Alexander

PY - 2017/9

Y1 - 2017/9

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AB - Systems with structural disorder are studied as promising materials in a number of future applications including solid oxide fuel cells (SOFCs) and for the next generation of Li-ion batteries. Li-ion conducting systems are significant due to their remarkable ionic conductivity and their attractive properties such as better stability and higher capacity. Here we discuss the insights gained by atomistic modelling on the intrinsic defects, doping processes and ionic diffusion mechanisms in Li2ZrO3 and TiO2.

M3 - Abstract

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