Temperature effect on redox voltage in LixCo[Fe(CN)6]y

Temperature effect on redox voltage in LixCo[Fe(CN)6]y

The electrochemical thermoelectric (TE) coefficient (SEC≡∂V∂T; V and T are the redox potential and temperature, respectively) is a significant material parameter, because it enable us to convert heat into electricity. Here, we systematically investigated the TE properties of cobalt hexacyanoferrate...

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Main Authors: Rögnvaldur Líndal Magnússon, Wataru Kobayashi, Masamitsu Takachi, Yutaka Moritomo
Format: Article
Language:English
Published: AIP Publishing LLC 2017-04-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4979888
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spelling doaj-97eb9fcd81bf4f8d9df978ebbfc3f5842020-11-25T00:06:38ZengAIP Publishing LLCAIP Advances2158-32262017-04-0174045002045002-610.1063/1.4979888005704ADVTemperature effect on redox voltage in LixCo[Fe(CN)6]yRögnvaldur Líndal Magnússon0Wataru Kobayashi1Masamitsu Takachi2Yutaka Moritomo3Graduate School of Pure and Applied Science, University of Tsukuba, Tsukuba 305-8571, JapanGraduate School of Pure and Applied Science, University of Tsukuba, Tsukuba 305-8571, JapanGraduate School of Pure and Applied Science, University of Tsukuba, Tsukuba 305-8571, JapanGraduate School of Pure and Applied Science, University of Tsukuba, Tsukuba 305-8571, JapanThe electrochemical thermoelectric (TE) coefficient (SEC≡∂V∂T; V and T are the redox potential and temperature, respectively) is a significant material parameter, because it enable us to convert heat into electricity. Here, we systematically investigated the TE properties of cobalt hexacyanoferrate (Co-HCF), LixCo[Fe(CN)6]y, against the Li concentration (x). |SEC| is higher than the Seebeck coefficient (= 0.2 mV/K at room temperature) of Bi2Te3 and distributes from 0.2 to 0.8 mV/K. We further observed a sign reversal behavior of SEC: SEC is negative at y =0.71 while it is negative (positive) at x≤0.3 (x≥0.6) at y =0.90. Based on the ionic model, we qualitatively reproduced the sign reversal behavior by including the volume expansion effect. These arguments suggest that SEC in solid is mainly governed by the electrostatic energy.http://dx.doi.org/10.1063/1.4979888
collection DOAJ
language English
format Article
sources DOAJ
author Rögnvaldur Líndal Magnússon
Wataru Kobayashi
Masamitsu Takachi
Yutaka Moritomo
spellingShingle Rögnvaldur Líndal Magnússon
Wataru Kobayashi
Masamitsu Takachi
Yutaka Moritomo
Temperature effect on redox voltage in LixCo[Fe(CN)6]y
AIP Advances
author_facet Rögnvaldur Líndal Magnússon
Wataru Kobayashi
Masamitsu Takachi
Yutaka Moritomo
author_sort Rögnvaldur Líndal Magnússon
title Temperature effect on redox voltage in LixCo[Fe(CN)6]y
title_short Temperature effect on redox voltage in LixCo[Fe(CN)6]y
title_full Temperature effect on redox voltage in LixCo[Fe(CN)6]y
title_fullStr Temperature effect on redox voltage in LixCo[Fe(CN)6]y
title_full_unstemmed Temperature effect on redox voltage in LixCo[Fe(CN)6]y
title_sort temperature effect on redox voltage in lixco[fe(cn)6]y
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2017-04-01
description The electrochemical thermoelectric (TE) coefficient (SEC≡∂V∂T; V and T are the redox potential and temperature, respectively) is a significant material parameter, because it enable us to convert heat into electricity. Here, we systematically investigated the TE properties of cobalt hexacyanoferrate (Co-HCF), LixCo[Fe(CN)6]y, against the Li concentration (x). |SEC| is higher than the Seebeck coefficient (= 0.2 mV/K at room temperature) of Bi2Te3 and distributes from 0.2 to 0.8 mV/K. We further observed a sign reversal behavior of SEC: SEC is negative at y =0.71 while it is negative (positive) at x≤0.3 (x≥0.6) at y =0.90. Based on the ionic model, we qualitatively reproduced the sign reversal behavior by including the volume expansion effect. These arguments suggest that SEC in solid is mainly governed by the electrostatic energy.
url http://dx.doi.org/10.1063/1.4979888
work_keys_str_mv AT rognvaldurlindalmagnusson temperatureeffectonredoxvoltageinlixcofecn6y
AT watarukobayashi temperatureeffectonredoxvoltageinlixcofecn6y
AT masamitsutakachi temperatureeffectonredoxvoltageinlixcofecn6y
AT yutakamoritomo temperatureeffectonredoxvoltageinlixcofecn6y
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