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Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study

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Zeitschriftentitel: Physical Chemistry Chemical Physics
Personen und Körperschaften: Gong, J. J., Hong, A. J., Shuai, J., Li, L., Yan, Z. B., Ren, Z. F., Liu, J.-M.
In: Physical Chemistry Chemical Physics, 18, 2016, 24, S. 16566-16574
Format: E-Article
Sprache: Englisch
veröffentlicht:
Royal Society of Chemistry (RSC)
Schlagwörter:
Physical and Theoretical Chemistry
General Physics and Astronomy
author_facet Gong, J. J.
Hong, A. J.
Shuai, J.
Li, L.
Yan, Z. B.
Ren, Z. F.
Liu, J.-M.
Gong, J. J.
Hong, A. J.
Shuai, J.
Li, L.
Yan, Z. B.
Ren, Z. F.
Liu, J.-M.
author Gong, J. J.
Hong, A. J.
Shuai, J.
Li, L.
Yan, Z. B.
Ren, Z. F.
Liu, J.-M.
spellingShingle Gong, J. J.
Hong, A. J.
Shuai, J.
Li, L.
Yan, Z. B.
Ren, Z. F.
Liu, J.-M.
Physical Chemistry Chemical Physics
Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
Physical and Theoretical Chemistry
General Physics and Astronomy
author_sort gong, j. j.
spelling Gong, J. J. Hong, A. J. Shuai, J. Li, L. Yan, Z. B. Ren, Z. F. Liu, J.-M. 1463-9076 1463-9084 Royal Society of Chemistry (RSC) Physical and Theoretical Chemistry General Physics and Astronomy http://dx.doi.org/10.1039/c6cp02057g <p>An effective carrier concentration <italic>n</italic><sub>eff</sub> is proposed to evaluate the bipolar effect, and the results show good consistency with measured data.</p> Investigation of the bipolar effect in the thermoelectric material CaMg<sub>2</sub>Bi<sub>2</sub> using a first-principles study Physical Chemistry Chemical Physics
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title Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_unstemmed Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_full Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_fullStr Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_full_unstemmed Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_short Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_sort investigation of the bipolar effect in the thermoelectric material camg<sub>2</sub>bi<sub>2</sub> using a first-principles study
topic Physical and Theoretical Chemistry
General Physics and Astronomy
url http://dx.doi.org/10.1039/c6cp02057g
publishDate 2016
physical 16566-16574
description <p>An effective carrier concentration <italic>n</italic><sub>eff</sub> is proposed to evaluate the bipolar effect, and the results show good consistency with measured data.</p>
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author Gong, J. J., Hong, A. J., Shuai, J., Li, L., Yan, Z. B., Ren, Z. F., Liu, J.-M.
author_facet Gong, J. J., Hong, A. J., Shuai, J., Li, L., Yan, Z. B., Ren, Z. F., Liu, J.-M., Gong, J. J., Hong, A. J., Shuai, J., Li, L., Yan, Z. B., Ren, Z. F., Liu, J.-M.
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description <p>An effective carrier concentration <italic>n</italic><sub>eff</sub> is proposed to evaluate the bipolar effect, and the results show good consistency with measured data.</p>
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imprint Royal Society of Chemistry (RSC), 2016
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spelling Gong, J. J. Hong, A. J. Shuai, J. Li, L. Yan, Z. B. Ren, Z. F. Liu, J.-M. 1463-9076 1463-9084 Royal Society of Chemistry (RSC) Physical and Theoretical Chemistry General Physics and Astronomy http://dx.doi.org/10.1039/c6cp02057g <p>An effective carrier concentration <italic>n</italic><sub>eff</sub> is proposed to evaluate the bipolar effect, and the results show good consistency with measured data.</p> Investigation of the bipolar effect in the thermoelectric material CaMg<sub>2</sub>Bi<sub>2</sub> using a first-principles study Physical Chemistry Chemical Physics
spellingShingle Gong, J. J., Hong, A. J., Shuai, J., Li, L., Yan, Z. B., Ren, Z. F., Liu, J.-M., Physical Chemistry Chemical Physics, Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study, Physical and Theoretical Chemistry, General Physics and Astronomy
title Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_full Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_fullStr Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_full_unstemmed Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_short Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
title_sort investigation of the bipolar effect in the thermoelectric material camg<sub>2</sub>bi<sub>2</sub> using a first-principles study
title_unstemmed Investigation of the bipolar effect in the thermoelectric material CaMg2Bi2 using a first-principles study
topic Physical and Theoretical Chemistry, General Physics and Astronomy
url http://dx.doi.org/10.1039/c6cp02057g