Spin State Control of the Perovskite Rh/Co Oxides

Spin State Control of the Perovskite Rh/Co Oxides

We show why and how the spin state of transition-metal ions affects the thermoelectric properties of transition-metal oxides by investigating two perovskite-related oxides. In the A-site ordered cobalt oxide Sr3YCo4O10.5, partial substitution of Ca for Sr acts as chemical pressure, which compresses...

Full description

Bibliographic Details
Main Authors: Wataru Kobayashi, Shin Yoshida, Soichiro Shibasaki, Ichiro Terasaki
Format: Article
Language:English
Published: MDPI AG 2010-01-01
Series:Materials
Subjects:
thermopower
spin state
oxide thermoelectrics
Heikes formula
Online Access:http://www.mdpi.com/1996-1944/3/2/786/
id doaj-e9c7d23dbfb740b5a404af2fdd081ca8
record_format Article
spelling doaj-e9c7d23dbfb740b5a404af2fdd081ca82020-11-25T00:40:35ZengMDPI AGMaterials1996-19442010-01-013278679910.3390/ma3020786Spin State Control of the Perovskite Rh/Co OxidesWataru KobayashiShin YoshidaSoichiro ShibasakiIchiro TerasakiWe show why and how the spin state of transition-metal ions affects the thermoelectric properties of transition-metal oxides by investigating two perovskite-related oxides. In the A-site ordered cobalt oxide Sr3YCo4O10.5, partial substitution of Ca for Sr acts as chemical pressure, which compresses the unit cell volume to drive the spin state crossover, and concomitantly changes the magnetization and thermopower. In the perovskite rhodium oxide LaRhO3, partial substitution of Sr for La acts as hole-doping, and the resistivity and thermopower decrease systematically with the Sr concentration. The thermopower remains large values at high temperatures (>150 μV/K at 800 K), which makes a remarkable contrast to La1-xSrxCoO3. We associate this with the stability of the low spin state of the Rh3+ ions. http://www.mdpi.com/1996-1944/3/2/786/thermopowerspin stateoxide thermoelectricsHeikes formula
collection DOAJ
language English
format Article
sources DOAJ
author Wataru Kobayashi
Shin Yoshida
Soichiro Shibasaki
Ichiro Terasaki
spellingShingle Wataru Kobayashi
Shin Yoshida
Soichiro Shibasaki
Ichiro Terasaki
Spin State Control of the Perovskite Rh/Co Oxides
Materials
thermopower
spin state
oxide thermoelectrics
Heikes formula
author_facet Wataru Kobayashi
Shin Yoshida
Soichiro Shibasaki
Ichiro Terasaki
author_sort Wataru Kobayashi
title Spin State Control of the Perovskite Rh/Co Oxides
title_short Spin State Control of the Perovskite Rh/Co Oxides
title_full Spin State Control of the Perovskite Rh/Co Oxides
title_fullStr Spin State Control of the Perovskite Rh/Co Oxides
title_full_unstemmed Spin State Control of the Perovskite Rh/Co Oxides
title_sort spin state control of the perovskite rh/co oxides
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2010-01-01
description We show why and how the spin state of transition-metal ions affects the thermoelectric properties of transition-metal oxides by investigating two perovskite-related oxides. In the A-site ordered cobalt oxide Sr3YCo4O10.5, partial substitution of Ca for Sr acts as chemical pressure, which compresses the unit cell volume to drive the spin state crossover, and concomitantly changes the magnetization and thermopower. In the perovskite rhodium oxide LaRhO3, partial substitution of Sr for La acts as hole-doping, and the resistivity and thermopower decrease systematically with the Sr concentration. The thermopower remains large values at high temperatures (>150 μV/K at 800 K), which makes a remarkable contrast to La1-xSrxCoO3. We associate this with the stability of the low spin state of the Rh3+ ions.
topic thermopower
spin state
oxide thermoelectrics
Heikes formula
url http://www.mdpi.com/1996-1944/3/2/786/
work_keys_str_mv AT watarukobayashi spinstatecontroloftheperovskiterhcooxides
AT shinyoshida spinstatecontroloftheperovskiterhcooxides
AT soichiroshibasaki spinstatecontroloftheperovskiterhcooxides
AT ichiroterasaki spinstatecontroloftheperovskiterhcooxides
_version_ 1725289231849357312

Similar Items