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Comparative study of photocells based on silicon doped with nickel by various methods
Russian version
DOI: 10.21883/SC.2022.04.53238.9768
Ismailov K. A.1, Zikrillaev N. F.2, Koveshnikov S. V.2, Kosbergenov E. Zh.1
1Berdakh Karakalpak State University, Nukus, Uzbekistan
2Tashkent State Technical University, Tashkent, Uzbekistan
Email: kanatbay.ismailov@gmail.com, koveshnikov_s@mail.ru, ernazar.kosbergenov@gmail.com
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In this work, the parameters of silicon-based photocells doped with impurity nickel atoms by diffusion methods and during growth were compared. It was found that photocells doped with impurity nickel atoms during silicon growth have an improvement in parameters comparable to that obtained by the diffusion doping method. Additional heat treatment at T=800oC makes it possible to significantly improve their basic parameters. Keywords:silicon, photocell, nickel, thermal annealing, diffusion.
  1. M. Seibt, A. Sattler, C. Rudolf, O. Voss, V. Kveder, W. Schroter. Phys. Status Solidi A, 203 (4), 696 (2006)
  2. I.B. Chistokhin, K.B. Fricler. Pisma ZhTF, 46 (21), 11 (2020) (in Russian)
  3. J.S. Kang, D.K. Schroder. J. Appl. Phys., 65, 2974(1989)
  4. C.S. Chen D.K. Schroder. J. Appl. Phys., 71, 5858 (1992)
  5. B.K. Ismailov, A.B. Kamalov, D.Zh. Asanov. Pribory, 252 (6), 25 (2021), (in Russian)
  6. M.K. Bakhadirkhanov, B.K. Ismailov. Pribory, 240 (6), 44 (2020), (in Russian)
  7. M.K. Bakhadyrkhanov, B.K. Ismaylov, S.A. Tachilin, K.A. Ismailov, N.F. Zikrillaev. SPQEO, 23 (4), 361 (2020)
  8. M.K. Bakhadyrkhanov, K.A. Ismailov, B.K. Ismaylov, Z.M. Saparniyazova. SPQEO, 21 (4), 392 (2018)
  9. M.K. Bakhadyrkhanov, S.B. Isamov, Z.T. Kenzhaev, S.V. Koveshnikov. Pisma ZhTF, 45 (19), 3 (2019) (in Russian)
  10. M.K. Bakhadyrkhanov, Z.T. Kenzhaev. ZhTF, 91 (6), 981 (2021) (in Russian)
  11. M.K. Bakhadyrkhanov, Z.T. Kenzhaev, S.V. Koveshnikov, K.S. Ayupov, E.Zh. Kosbergenov. FTP, 56 (1), 128 (2022) (in Russian)
  12. M.K. Bakhadyrkhanov, Z.T. Kenzhaev, K.A. Ismailov, S.V. Koveshnikov. Geliotekhnika, 56 (4), 322 (2020) (in Russian)
  13. M.K. Bakhadyrkhanov, Z.T. Kenzhaev, Kh.S. Turekeev, B.O. Isakov, A.A. Usmonov. ZhTF, 91 (11), 1685 (2021) (in Russian)
  14. P. Panek, K. Drabczyk, P. Zi eba. Opto-Electronics Rev., 17 (2), 161 (2009)
  15. A.V. Sachenko, V.P. Kostylev, A.V. Bobyl, V.N. Vlasyuk, I.O. Sokolovsky, G.A. Konoplev, E.I. Terukov. Pisma ZhTF, 44 (19), 40 (2018) (in Russian)
  16. C.T. Sah, K.A. Yamakawa, R. Lutwack. J. Appl. Phys., 53, 3278 (1982)
  17. N. Khedhera, M. Hajjia, M. Hassena, A. Ben Jaballaha, B. Ouertania, H. Ezzaouiaa, B. Bessaisa, A. Selmib, R. Bennaceur. Solar Energy Mater. \& Solar Cells, 87, 605 (2005)

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