Skip to content
RDL
Network
Ekosistem
Uygulama değiştir
EN
Hakkımızda
SSS
Giriş yap
Başla
Computational investigation of chalcogenide spinel conductors for all-solid-state Mg batteries — Julius Koettgen (2020) | RDL Network
Back
Cite
Save
Save for later
Share
Home
Publications
Computational investigation of chalcogenide spinel conductors for all-solid-state Mg batteries
Shared by
Gerbrand Ceder
University of California, Berkeley
Computational investigation of chalcogenide spinel conductors for all-solid-state Mg batteries
Article
2020
en
Authors
JK
Julius Koettgen
CB
Christopher J. Bartel
Gerbrand Ceder
University of California, Berkeley
Abstract
1 min read
Lanthanoid cations enable fast Mg <sup>2+</sup> mobility in spinel chalcogenides but destabilize the spinel structure beyond a critical size.
Discussion
(0)
Sign in
to like and join the discussion.
No comments yet. Be the first to comment.
Related publications
Preprint
2019
Computational Investigation of Chalcogenide Spinel Conductors for All-Solid-State Mg Batteries
Julius Koettgen
,
Christopher J. Bartel
,
Gerbrand Ceder
Preprint
2019
Computational Investigation of Chalcogenide Spinel Conductors for All-Solid-State Mg Batteries
Julius Koettgen
,
Christopher J. Bartel
,
Gerbrand Ceder
Article
2020
Investigation of Rare-Earth Chalcogenide Spinel for Mg Solid State Conductors
Yu Chen
,
Julius Koettgen
,
Christopher J. Bartel
,
Gerbrand Ceder
Article
2021
Operando X-ray Diffraction Studies of the Mg-Ion Migration Mechanisms in Spinel Cathodes for Rechargeable Mg-Ion Batteries
Liang Yin
,
Bob Jin Kwon
,
Yunyeong Choi
,
Christopher J. Bartel
,
Mengxi Yang
,
Chen Liao
,
Baris Key
,
Gerbrand Ceder
,
Saul H. Lapidus
Article
2019
Probing Mg Migration in Spinel Oxides
Ryan D. Bayliss
,
Baris Key
,
Gopalakrishnan Sai Gautam
,
Pieremanuele Canepa
,
Bob Jin Kwon
,
Saul H. Lapidus
,
Fulya Doğan
,
Abdullah A. Adil
,
Andrew Lipton
,
Peter J. Baker
,
Gerbrand Ceder
,
John T. Vaughey
,
Jordi Cabana
Discussion(0)
No comments yet. Be the first to comment.