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All issues Volume 462 (2023) E3S Web of Conf., 462 (2023) 03013 References
Open Access
Issue
E3S Web of Conf.
Volume 462, 2023
International Scientific Conference “Fundamental and Applied Scientific Research in the Development of Agriculture in the Far East” (AFE-2023)
Article Number 03013
Number of page(s) 6
Section Soil Science and Natural Resources Management
DOI https://doi.org/10.1051/e3sconf/202346203013
Published online 12 December 2023
  1. C. L. Condron, S. M. Kauzlarich, F. Gascoin, G. J. Snyder, Thermoelectric properties and microstructure of Mg3Sb2. Journal of Solid State Chemistry, 179, 2252–2257 (2006) https://hi.art1lib.com/book/3770947/954191 [CrossRef] [Google Scholar]
  2. M. Tiadi, M. Battabyal, P.K. Jain, A. Chauhan, D. K. Satapathy, R. Gopalan, Enhancing the thermoelectric efficiency in p-type Mg3Sb2 via Mg site co-doping. Sustainable Energy Fuels, 16(5), 4104–4114 (2021) [CrossRef] [Google Scholar]
  3. Priyadarshini Balasubramanian, Manjusha Battabyal, Raghavan Gopalan, Improving the oxidation resistance of thermoelectric Mg2Si leg with silica coating, Materials Letters, 312, 131599 (2022) https://doi.org/10.1016/j.matlet.2021.131599 [Google Scholar]
  4. R. Farris, M. Barbara Maccioni, A. Filippetti, V. Fiorentini, Theory of thermoelectricity in Mg3Sb2 with an energy- and temperature-dependent relaxation time. Article in Journal of Physics Condensed Matter· November 2018 doi: 10.1088/1361-648X/aaf364; https://www.researchgate.net/publication/329157932 [Google Scholar]
  5. Md. M. Rahman, A.K.M. Ashiquzzaman Shawon, Soon-Chul Ur, Effect of Excessive Antimony on the Thermoelectric and Transport Properties of Mg3Sb2 Synthesized by Controlled Melting, Pulverizing Followed by Vacuum Hot Pressing. Electronic Materials Letters, 17, 102-108 (2021) https://doi.org/10.1007/s13391-020-00251-y. [CrossRef] [Google Scholar]
  6. J. Zhang, L. Song, B. B. Iversen, Insights into the design of thermoelectric Mg3Sb2 and its analogs by combining theory and experiment. npj Computational Materials, 5:76 (2019) https://doi.org/10.1038/s41524-019-0215-y. [CrossRef] [Google Scholar]
  7. L. Huang, T. Liu, X. Mo, G. Yuan, R. Wang, H. Liu, X. Lei, Q. Zhang, Z. Ren, Thermoelectric performance improvement of p-type Mg3Sb2-based materials by Zn and Ag co-doping. Materials Today Physics, 21, 100564 (2021) doi.org/10.1016/j.mtphys.2021.100564 [CrossRef] [Google Scholar]
  8. B. L. Oksengendler, B. M. Abdurakhmanov, M. M. Adilov, Kh. B. Ashurov, “New Aspects of Thermoelectricity: Electronic Skutterudites”. J. Applied Solar Energy, 2, 37-40 (2017) [Google Scholar]
  9. B. M. Abdurakhmanov, M. M. Adilov, M. Kh. Ashurov, Kh. B. Ashurov, Sh. K. Kuchkanov, S. E. Maksimov, B. L. Oxengendler, “Thermoelectric characteristics of granular semiconductors with resonant tunneling of charge carriers for the conversion of the thermal component of solar radiation” J. Applied Solar Energy, 4, 22-27 (2015) [Google Scholar]
  10. F. L. Omonboev, L. O. Olimov, B. M. Abdurakhmanov, Conductivity and Seebeck coefficient in granular silicon. The American Journal of Engineering and Technology, 28-35 (2021) doi.org/10.37547/tajet/Volume03Issue03-05 [Google Scholar]
  11. L.O. Olimov, I.I. Anarboev, A.Mamirov, F.L. Omonboev, M.L. Omonboeva Patent UZ № FAP 01593 “Method of preparation of thermoelectric material” (2021) [Google Scholar]
  12. B.M. Abdurakhmanov, M.M. Adilov, M.Kh. Ashurov, Patent Uz IAP 0561 Thermoelectric material and its preparation method. 29.06.2018. Bull., 6 [Google Scholar]
  13. L. O. Olimov, I. I. Anarboyev, Some Electrophysical Properties of Polycrystalline Silicon Obtained in a Solar Oven. Silicon, 14(8), 3817 – 3822 (2022) doi.org/10.1007/s12633-021-01596-1 [CrossRef] [Google Scholar]
  14. L. O. Olimov, I. I. Anarboyev, Some electrophysical properties of polycrystalline silicon obtained in a solar oven. International Journal of Physics & Mathematics, 4(1), 39-45 (2021) [Google Scholar]
  15. L. O. Olimov, I. I. Anarboyev, Microcructure of Polycrystal Silicon Heated by Sunlight. RA Journal Of Applied research, 7, 2669-26712021 (2021) [CrossRef] [Google Scholar]
  16. L. O. Olimov, B. M. Abdurakhmanov, F. L. Omonboev, The Influence of Alkali Metal Atoms on the Electrical Conductivity of Granular Silicon. International Journal of Advanced Research in Physical Science, 7(12), 7-10 (2020) [Google Scholar]
  17. L. O. Olimov, The grain boundaries of polycrystalline silicon: microwaves, charge states and p-n-junction. Autoreferaty of doctoral dissertation (2016) [Google Scholar]
  18. V. I. Fistula, Physics and Chemistry of Solid State. Metallurgy, Moscow, 2 (1995) [Google Scholar]
  19. L. O. Olimov, B. M. Abdurakhmanov, F. L. Omonboev, Some Features of the Transport of Charge Carriers in the Grain Boundaries of Polycrystalline Silicon. International Journal of Advanced Research in Physical Science, 1(6), 12-17 (2014) [Google Scholar]

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