Structure and Properties of Materials on the Basis of Ag-Pb-Sb-Te with High Thermоelectric Figure of Merit
DOI:
https://doi.org/10.15330/pcss.17.1.114-128Keywords:
LAST, Lead telluride, thermoelectric propertiesAbstract
The review of works devoted to the study of thermoelectric, thermodynamic and mechanical properties of highly efficient thermoelectric materials in the system Ag-Pb (Sn) -Sb-Te. It is shown that based on them can be obtained as n-, and district branches of thermoelectric converters with parameter dimensionless thermoelectric figure of merit ZT ≈ 1.5 - 2.0.
References
[1] Li-Dong Zhao, Vinayak P. Dravid, and Mercouri G. Kanatzidis, Energy Environ. Sci. 7, 251 (2014).
[2] Joseph R. Sootsman, Duck Young Chung, and Mercouri G. Kanatzidis, Angew. Chem. Int. Ed. 48, 8616 (2009).
[3] A. V. Dmitriev, I. P. Zvyagin, Usp. Phyz. Nauk 180 (8), 821 (2010).
[4] Hongchao Wang, Je-Hyeong Bahk, Chanyoung Kang, Junphil Hwang, Kangmin Kim, Jungwon Kim, Peter Burke, John E. Bowers, Arthur C. Gossard, Ali Shakouri, and Woochul Kim, PNAS, July 29, 111(30), 10949 (2014).
[5] Terry M. Tritt, Harald Böttner, Lidong Chen, MRS Bulletin 33, 366 (2008).
[6] Jin-cheng Zheng, Front. Phys. China 3(3), 269 (2008).
[7] Jennifer Elisabeth Ni, Powder processing and mechanical properties of Ag0.86Pb19SbTe20 (LAST) and Pb0.95Sn0.05Te – PbS 8% (PbTe-PbS) thermoelectric materials (A dissertation doctorate of philosophy Mate-rials Science Engineering. Michigan State University, 300 (2012).
[8] A. O. Epremyan, V. M. Arutyunyan, A. I. Vaganyan, International scientific journal for alternative energy and ecology 5(25), 7 (2005).
[9] A. V. Shevelkov, Russian Chemical Reviews 77(1), 1 (2008).
[10] Yanzhong Pei, Aaron LaLonde, Shiho Iwanaga and G. Jeffrey Snyder, Energy Environ. Sci. 4, 2085 (2011).
[11] L. D. Borisova, Phys. stat. sol. (a) 53, K19 (1979).
[12] Chr. Jaworski, J. Tobola, E. M. Levin, Kl. Schmidt-Rohr, J. Heremans, Physical Review B. 80, 125208 (2009).
[13] D. M. Freik, C. A. Kryskov, I. V. Horichok, T. S. Lyuba, O. S. Krynytsky, O. M. Rachkovsky, Journal of Thermoelectricity 2, 42 (2013).
[14] D. M. Freik, S. I. Mudryi, I. V. Gorichok, R. O. Dzumedzey, O. S. Krunutcky, T. S. Lyuba, Ukr. J. Phys. 59(7), 706 (2014).
[15] P.-W. Zhu, Y. Imai, Y. Isoda, Y. Shinohara, X.-P. Jia, G.-T. Zou. Chin.Phys.Lett. 22(8), 2103 (2005).
[16] K-F. Hsu, S. Loo, F. Guo, W. Chen, J. S. Dyck, C. Uher, T. Hogan, E. K. Polychroniadis, M. G.Kanatzidis. Science 303(5659), 818 (2004).
[17] H. Hazama, U. Mizutani, Phys. Rev. B. 73, 115108 (2006).
[18] E. Quarez, K.F. Hsu, R. Pcionek, N. Frangis, E. K. Polychroniadis, M. G. Kanatzidis, J. Am. Chem. Soc. 127, 9177 (2005).
[19] J. Sootsman, R. Pcionek, H. Kong, C. Uher, M. G. Kanatzidis, Mater. Res. Soc. Symp. Proc. 886, 0886-F08-05 (2006).
[20] D. Bilc, S. D. Mahanti, E. Quarez, K. F. Hsu, R. Pcionek, M. G. Kanatzidis, Phys. Rev. Lett. 93, 146403 (2004).
[21] E. M. Levin, B. A. Cook, K. Ahn, M. G. Kanatzidis, and K. Schmidt-Rohr, Physical Review B 80, 115211, (2009).
[22] Kuei Fang Hsu, Sim Loo, Fu Guo, Wei Chen, Jeffrey S. Dyck, CtiradUher, Tim Hogan, E.K. Polychroniadis, Science 303(6), 818 (February 2004).
[23] Harold Schock, et al., Thermoelectric Conversion of Waste Heat to Electricity in an IC Engine Powered Ve-hicle (Michigan State University Iowa State University Northwestern University NASA Jet Propulsion La-boratory Cummins Engine Company, P.178, April 30, 2011).
[24] J. Sootsman, R. Pcionek, H. Kong, C. Uher, M. G. Kanatzidis. Mater. Res. Soc. Symp. Proc. 886, 0886-F08-05 (2006).
[25] Hsin-jay Wu, Sinn-wen Chen, Teruyuki Ikeda, G. Jeffrey Snyder, Acta Materialia 60, 6144 (2012).
[26] E. Quarez, K. F. Hsu, R. Pcionek, N. Frangis, E. K. Polychroniadis, M. G. Kanatzidis, J. Am. Chem. Soc. 127, 9177 (2005).
[27] F. Yan, T. J. Zhu, S.H. Yang and X. B. Zhao, Physica Scripta 129, 116 (2007).
[28] J. K. Lee, M. W. Oh, S. D. Park, B. S. Kim, B. K. Min, M. H. Kim, and H. W. Lee, Electronic Materials Letters, 8(6), 659 (2012).
[30] Jayaram Dadda, Eckhard Muller, Benedikt Klobes, Paula Bauer Pereira, and Raphael Hermann, Journal of Electronic Materials 41(8), (2012).
[32] Lijun Wu, Jin-Cheng Zheng, Juan Zhou, Qiang Li, Jihui Yang, and Yimei Zhu, Journal of Applied Physics 105, 094317 (2009).
[38] Hirofumi Hazama and Uichiro Mizutani, Ryoji Asahi, Physical Review B 73, 115108 (2006).
[40] Paula Bauer Pereira, Structure and Lattice Dynamics of Thermoelectric Complex Chalcogenides (Disserta-tion presentee par Paula Bauer Pereira en vue de l'obtention du grade de Docteur en Sciences Annee acade-mique. P.133, 2011-2012).
[44] K. Sh. Kagramanov, S. Sh. Kagramanov, E. D. Moroudor, M. G. Pishkin, CILD XII(3), 38 (2006).
[45] Mi-Kyung Han, Khang Hoang, Huijun Kong, Robert Pcionek, Ctirad Uher, Konstantinos M. Paraskevopou-los, S. D. Mahanti, and Mercouri G. Kanatzidis, Chemistry. Materials 20, 3512 (2008).
[46] Oliver Falkenbachr', Andreas Schmitzz, David Hartung3, Torben Dankworf, Guenter Koch, Lorenz Kienlea, Peter J. Klar, Eckhard Muellerr'2 and Sabine Schlechtr, The 2014 International Conference on Thermoelec-trics, July 6-10, , Nashville, Tennessee, USA (2014).
[47] Yanzhong Pei, Nicholas A. Heinz, Aaron LaLonde and G. Jeffrey Snyder, Energy & Environmental Science 4, 3640 (2011).
[48] Taichao Su, Hongyu Zhu, Xiaolei Li, Shangsheng Li, Le Deng, Shizhao Zheng, Hongan Ma and Xiaopeng Jia, Bull. Mater. Sci. 34(6), 1209 (2011).
[49] John Androulakis, Kuei Fang Hsu, Robert Pcionek, Huijun Kong, Ctirad Uher, Jonathan J. D’Angelo, Adam Downey, Tim Hogan, and Mercouri G. Kanatzidis, Adv. Mater. 18, 1170 (2006).
[50] Dr. Terry Hendricks Dr. Tim Hogan Dr. Eldon Case, Advanced Soldier Thermoelectric Power System for Power Generation from Battlefield Heat Sources (Technikal Report SERDP Project EW-1652, 2010).
[2] Joseph R. Sootsman, Duck Young Chung, and Mercouri G. Kanatzidis, Angew. Chem. Int. Ed. 48, 8616 (2009).
[3] A. V. Dmitriev, I. P. Zvyagin, Usp. Phyz. Nauk 180 (8), 821 (2010).
[4] Hongchao Wang, Je-Hyeong Bahk, Chanyoung Kang, Junphil Hwang, Kangmin Kim, Jungwon Kim, Peter Burke, John E. Bowers, Arthur C. Gossard, Ali Shakouri, and Woochul Kim, PNAS, July 29, 111(30), 10949 (2014).
[5] Terry M. Tritt, Harald Böttner, Lidong Chen, MRS Bulletin 33, 366 (2008).
[6] Jin-cheng Zheng, Front. Phys. China 3(3), 269 (2008).
[7] Jennifer Elisabeth Ni, Powder processing and mechanical properties of Ag0.86Pb19SbTe20 (LAST) and Pb0.95Sn0.05Te – PbS 8% (PbTe-PbS) thermoelectric materials (A dissertation doctorate of philosophy Mate-rials Science Engineering. Michigan State University, 300 (2012).
[8] A. O. Epremyan, V. M. Arutyunyan, A. I. Vaganyan, International scientific journal for alternative energy and ecology 5(25), 7 (2005).
[9] A. V. Shevelkov, Russian Chemical Reviews 77(1), 1 (2008).
[10] Yanzhong Pei, Aaron LaLonde, Shiho Iwanaga and G. Jeffrey Snyder, Energy Environ. Sci. 4, 2085 (2011).
[11] L. D. Borisova, Phys. stat. sol. (a) 53, K19 (1979).
[12] Chr. Jaworski, J. Tobola, E. M. Levin, Kl. Schmidt-Rohr, J. Heremans, Physical Review B. 80, 125208 (2009).
[13] D. M. Freik, C. A. Kryskov, I. V. Horichok, T. S. Lyuba, O. S. Krynytsky, O. M. Rachkovsky, Journal of Thermoelectricity 2, 42 (2013).
[14] D. M. Freik, S. I. Mudryi, I. V. Gorichok, R. O. Dzumedzey, O. S. Krunutcky, T. S. Lyuba, Ukr. J. Phys. 59(7), 706 (2014).
[15] P.-W. Zhu, Y. Imai, Y. Isoda, Y. Shinohara, X.-P. Jia, G.-T. Zou. Chin.Phys.Lett. 22(8), 2103 (2005).
[16] K-F. Hsu, S. Loo, F. Guo, W. Chen, J. S. Dyck, C. Uher, T. Hogan, E. K. Polychroniadis, M. G.Kanatzidis. Science 303(5659), 818 (2004).
[17] H. Hazama, U. Mizutani, Phys. Rev. B. 73, 115108 (2006).
[18] E. Quarez, K.F. Hsu, R. Pcionek, N. Frangis, E. K. Polychroniadis, M. G. Kanatzidis, J. Am. Chem. Soc. 127, 9177 (2005).
[19] J. Sootsman, R. Pcionek, H. Kong, C. Uher, M. G. Kanatzidis, Mater. Res. Soc. Symp. Proc. 886, 0886-F08-05 (2006).
[20] D. Bilc, S. D. Mahanti, E. Quarez, K. F. Hsu, R. Pcionek, M. G. Kanatzidis, Phys. Rev. Lett. 93, 146403 (2004).
[21] E. M. Levin, B. A. Cook, K. Ahn, M. G. Kanatzidis, and K. Schmidt-Rohr, Physical Review B 80, 115211, (2009).
[22] Kuei Fang Hsu, Sim Loo, Fu Guo, Wei Chen, Jeffrey S. Dyck, CtiradUher, Tim Hogan, E.K. Polychroniadis, Science 303(6), 818 (February 2004).
[23] Harold Schock, et al., Thermoelectric Conversion of Waste Heat to Electricity in an IC Engine Powered Ve-hicle (Michigan State University Iowa State University Northwestern University NASA Jet Propulsion La-boratory Cummins Engine Company, P.178, April 30, 2011).
[24] J. Sootsman, R. Pcionek, H. Kong, C. Uher, M. G. Kanatzidis. Mater. Res. Soc. Symp. Proc. 886, 0886-F08-05 (2006).
[25] Hsin-jay Wu, Sinn-wen Chen, Teruyuki Ikeda, G. Jeffrey Snyder, Acta Materialia 60, 6144 (2012).
[26] E. Quarez, K. F. Hsu, R. Pcionek, N. Frangis, E. K. Polychroniadis, M. G. Kanatzidis, J. Am. Chem. Soc. 127, 9177 (2005).
[27] F. Yan, T. J. Zhu, S.H. Yang and X. B. Zhao, Physica Scripta 129, 116 (2007).
[28] J. K. Lee, M. W. Oh, S. D. Park, B. S. Kim, B. K. Min, M. H. Kim, and H. W. Lee, Electronic Materials Letters, 8(6), 659 (2012).
[30] Jayaram Dadda, Eckhard Muller, Benedikt Klobes, Paula Bauer Pereira, and Raphael Hermann, Journal of Electronic Materials 41(8), (2012).
[32] Lijun Wu, Jin-Cheng Zheng, Juan Zhou, Qiang Li, Jihui Yang, and Yimei Zhu, Journal of Applied Physics 105, 094317 (2009).
[38] Hirofumi Hazama and Uichiro Mizutani, Ryoji Asahi, Physical Review B 73, 115108 (2006).
[40] Paula Bauer Pereira, Structure and Lattice Dynamics of Thermoelectric Complex Chalcogenides (Disserta-tion presentee par Paula Bauer Pereira en vue de l'obtention du grade de Docteur en Sciences Annee acade-mique. P.133, 2011-2012).
[44] K. Sh. Kagramanov, S. Sh. Kagramanov, E. D. Moroudor, M. G. Pishkin, CILD XII(3), 38 (2006).
[45] Mi-Kyung Han, Khang Hoang, Huijun Kong, Robert Pcionek, Ctirad Uher, Konstantinos M. Paraskevopou-los, S. D. Mahanti, and Mercouri G. Kanatzidis, Chemistry. Materials 20, 3512 (2008).
[46] Oliver Falkenbachr', Andreas Schmitzz, David Hartung3, Torben Dankworf, Guenter Koch, Lorenz Kienlea, Peter J. Klar, Eckhard Muellerr'2 and Sabine Schlechtr, The 2014 International Conference on Thermoelec-trics, July 6-10, , Nashville, Tennessee, USA (2014).
[47] Yanzhong Pei, Nicholas A. Heinz, Aaron LaLonde and G. Jeffrey Snyder, Energy & Environmental Science 4, 3640 (2011).
[48] Taichao Su, Hongyu Zhu, Xiaolei Li, Shangsheng Li, Le Deng, Shizhao Zheng, Hongan Ma and Xiaopeng Jia, Bull. Mater. Sci. 34(6), 1209 (2011).
[49] John Androulakis, Kuei Fang Hsu, Robert Pcionek, Huijun Kong, Ctirad Uher, Jonathan J. D’Angelo, Adam Downey, Tim Hogan, and Mercouri G. Kanatzidis, Adv. Mater. 18, 1170 (2006).
[50] Dr. Terry Hendricks Dr. Tim Hogan Dr. Eldon Case, Advanced Soldier Thermoelectric Power System for Power Generation from Battlefield Heat Sources (Technikal Report SERDP Project EW-1652, 2010).
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Published
2016-03-15
How to Cite
Horichok, I., Nykyruy, L., Semko, T., Lopуanko M., Sokolov, O., & Galushchak, M. (2016). Structure and Properties of Materials on the Basis of Ag-Pb-Sb-Te with High Thermоelectric Figure of Merit. Physics and Chemistry of Solid State, 17(1), 114–128. https://doi.org/10.15330/pcss.17.1.114-128
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