Synthesis and Thermoelectric Properties of PbTe-SnTe Solid Solutions
DOI:
https://doi.org/10.15330/pcss.17.4.570-574Keywords:
the plumbum will become telluride, solid solutions, thermoelectric propertiesAbstract
There are presents X-ray results and measurements of thermoelectric parameters (thermoelectric electromotive force α, specific electrical conductivity σ, and coefficient of thermal conductivity k) for materials on the base of PbTe-SnTe system. The dimensionless thermoelectric figure of merit ZT ≈ 0,3 received for thermoelectric samples p-Pb0.4Sn0.6Te obtained by cold pressing method in complex with annealing.
References
[1] L. D. Zhao, V. P. Dravid, M. G. Kanatzidis. Energy Environ. Sci., 7, 251 (2014).
[2] J. R. Sootsman, D. Y. Chung, M. G. Kanatzidis. Angew. Chem. Int. Ed., 48, 8616 (2009).
[3] A. V. Dmitriev, I. P. Zvjagin, UFN, 180(8), 821 (2010).
[4] J. C. Zheng., Front. Phys. China, 3(3), 269 (2008).
[5] A. O. Epremjan, V. M. Arutjunjan, A. I. Vaganjan, International scientific journal for alternative energy and ecology, 5(25), 7 (2005).
[6] M. A. Lop"yanko, S. I. Mudryy, S. V. Optasyuk, T. O. Semko, T. S. Lyuba, H. D. Mateyik, I. V. Horichok, a. S. Yavors'kyy. Physics and Chemistry of Solid State, 17(2), 188 (2016).
[7] V. P. Vedeneev, S. P. Kryvoruchko, E. P. Sabo. FTP, 32 (3), 268 (1998).
[8] Y. G. Sha, R. F. Brebrick. J. Electron. Mater., 18(3), 421 (1989).
[9] U. Kattner, H. L. Lukas, G. Petzow, J. Less-Common. Met., 114(1), 129 (1985).
[10] D. Baltrunas, S. Motiejunas, E. Rogacheva, Phys. Stat. Sol. (a), 97, 131 (1986).
[11] H. T. Alekseeva, M. V. Vedernykov, E. A. Huryeva, L. V. Prokof'eva, Yu. Y. Ravych. FTP, 34(8), 935 (2000).
[12] L. V. Prokof'eva, Yu. Y. Ravych, D. A. Pshenay-Severyn, P. P. Konstantynov, A. A. Shabaldyn. FTP, 44(6), 742 (2010).
[13] P. Gille, M. Muhlberg, L. Parthier, P. Rudolph. Crystal Res. and Technol., 19 (7), 881 (1984).
[14] X. Gao, M. Daw. Phys. Rev. B, 77, 033103 (2008).
[15] S. Perlt, Th. Hoche, J. Dadda , E. Muller, P. BauerPereira, R. Hermann, M. Sarahan, E. Pippel, R. Brydson. Journal of Solid State Chemistry, 193, 58 (2012).
[16] O. Falkenbachr, A. Schmitzz, D. Hartung, T. Dankworf, G. Koch, L. Kienlea, P. J. Klar, E. Muellerr, S. Schlechtr. The 2014 International Conference on Thermoelectrics, July 6-10, 2014, Nashville, Tennessee, USA.
[17] D. M. Freik, C. A. Kryskov, I. V. Horichok, T. S. Lyuba, O. S. Krynytsky, O. M. Rachkovsky, Journal of Thermoelectricity, 2, 42 (2013).
[18] D. M. Freyik, R. Ya. Mykhayl'onka, V. M. Klanichka, Physics and Chemistry of Solid State, 5(1), 173 (2004).
[19] E. Miller, K. Komarek, I. Cadoff. Journal of applied physics, 32(11), 4257 (1961).
[20] S. V. Ovsyannykov, V. V. Shchennykov, Pys'ma v ZhETF, 80(1), 41 (2004).
[21] Y. -L. Pei, Y. Liu. Journal of Alloys and Compounds, 514, 40 (2012).
[2] J. R. Sootsman, D. Y. Chung, M. G. Kanatzidis. Angew. Chem. Int. Ed., 48, 8616 (2009).
[3] A. V. Dmitriev, I. P. Zvjagin, UFN, 180(8), 821 (2010).
[4] J. C. Zheng., Front. Phys. China, 3(3), 269 (2008).
[5] A. O. Epremjan, V. M. Arutjunjan, A. I. Vaganjan, International scientific journal for alternative energy and ecology, 5(25), 7 (2005).
[6] M. A. Lop"yanko, S. I. Mudryy, S. V. Optasyuk, T. O. Semko, T. S. Lyuba, H. D. Mateyik, I. V. Horichok, a. S. Yavors'kyy. Physics and Chemistry of Solid State, 17(2), 188 (2016).
[7] V. P. Vedeneev, S. P. Kryvoruchko, E. P. Sabo. FTP, 32 (3), 268 (1998).
[8] Y. G. Sha, R. F. Brebrick. J. Electron. Mater., 18(3), 421 (1989).
[9] U. Kattner, H. L. Lukas, G. Petzow, J. Less-Common. Met., 114(1), 129 (1985).
[10] D. Baltrunas, S. Motiejunas, E. Rogacheva, Phys. Stat. Sol. (a), 97, 131 (1986).
[11] H. T. Alekseeva, M. V. Vedernykov, E. A. Huryeva, L. V. Prokof'eva, Yu. Y. Ravych. FTP, 34(8), 935 (2000).
[12] L. V. Prokof'eva, Yu. Y. Ravych, D. A. Pshenay-Severyn, P. P. Konstantynov, A. A. Shabaldyn. FTP, 44(6), 742 (2010).
[13] P. Gille, M. Muhlberg, L. Parthier, P. Rudolph. Crystal Res. and Technol., 19 (7), 881 (1984).
[14] X. Gao, M. Daw. Phys. Rev. B, 77, 033103 (2008).
[15] S. Perlt, Th. Hoche, J. Dadda , E. Muller, P. BauerPereira, R. Hermann, M. Sarahan, E. Pippel, R. Brydson. Journal of Solid State Chemistry, 193, 58 (2012).
[16] O. Falkenbachr, A. Schmitzz, D. Hartung, T. Dankworf, G. Koch, L. Kienlea, P. J. Klar, E. Muellerr, S. Schlechtr. The 2014 International Conference on Thermoelectrics, July 6-10, 2014, Nashville, Tennessee, USA.
[17] D. M. Freik, C. A. Kryskov, I. V. Horichok, T. S. Lyuba, O. S. Krynytsky, O. M. Rachkovsky, Journal of Thermoelectricity, 2, 42 (2013).
[18] D. M. Freyik, R. Ya. Mykhayl'onka, V. M. Klanichka, Physics and Chemistry of Solid State, 5(1), 173 (2004).
[19] E. Miller, K. Komarek, I. Cadoff. Journal of applied physics, 32(11), 4257 (1961).
[20] S. V. Ovsyannykov, V. V. Shchennykov, Pys'ma v ZhETF, 80(1), 41 (2004).
[21] Y. -L. Pei, Y. Liu. Journal of Alloys and Compounds, 514, 40 (2012).
Downloads
Published
2016-12-15
How to Cite
Horichok, I., Nykyruy, L., Galushchak, M., Mudrij, S., Semko, T., Megilovska, L., … Yurchyshyn, L. (2016). Synthesis and Thermoelectric Properties of PbTe-SnTe Solid Solutions. Physics and Chemistry of Solid State, 17(4), 570–574. https://doi.org/10.15330/pcss.17.4.570-574
Issue
Section
Scientific articles
