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Investigation of the Optoelectronic and Photovoltaic Properties of YxIN1-xP Alloys using First Principles Calculations

Khedija Talbi
Khedija Talbi
, 
Youcef Cherchab
Youcef Cherchab
, 
Ali Mir
Ali Mir
 und 
Bachir Bouhadef
Bachir Bouhadef
   | 28. Nov. 2022
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Online veröffentlicht: 28. Nov. 2022
Seitenbereich: 126 - 147
Eingereicht: 20. Sept. 2022
Akzeptiert: 08. Nov. 2022
DOI: https://doi.org/10.2478/awutp-2022-0009
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© 2022 Khedija Talbi et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

[1] J.Y. Tsao, S. Chowdhury, M. A. Hollis, D. Jena, N. M. Johnson., K. A. Jones, K and C. L. Chua. Adv. Electron. Mater. (2018) 4(1), 1600501 Search in Google Scholar

[2] S. Adachi, Properties of Semiconductor Alloys: Group-IV, III-V and II-VI Semiconductors, Wiley Series in Materials for Electronic and Optoelectronic Applications, John Wiley and Sons Ltd., (2009) Search in Google Scholar

[3] M.R. Krames, O. B, Shchekin, R. Mueller-Mach, G. O. Mueller, L. Zhou, G. Harbers, G and M. G. Craford. J. Disp. Technol. (2007) 3, 160 Search in Google Scholar

[4] T. Kim, B. Wang, C.Wang, D. A. Kohen, J. W. Hwang, J. C. Shin, J. C and J. Michel. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films. (2017) 35(3), 031507 Search in Google Scholar

[5] A.E. Henkes, Y. Vasquez and R.E. Schaak. J. Am. Chem. Soc. 2007, 129(7), 1896 Search in Google Scholar

[6] T. M. Christian, D. A. Beaton, K. Mukherjee, K. Alberi, E. A. Fitzgerald, and A. Mascarenhas, J. Appl. Phys. (2013) 114, 074505 Search in Google Scholar

[7] M. Rezek, K. Senay. J. ALLOY. COMPD. (2009) 478 531 Search in Google Scholar

[8] M. Rezek, K. Senay. J. ALLOY. COMPD. (2009) 485 687 Search in Google Scholar

[9] J. Chamings, S. Ahmed, and S. J. Sweeney, V. A. Odnoblyudov and C. W. Tu. Appl. Phys. Lett. (2008) 92, 021101 Search in Google Scholar

[10] A. González-García, W. López-Pérez, W, R. Palacio-Mozo and R. González-Hernández, Thermodynamic properties of In1− xBxPsemiconducting alloys: A first-principles study, Comput. Condens. Matter. (2014) 91, 279. Search in Google Scholar

[11] M. Gandouzi, F. Hedhili, and N. Rekik. Comput. Mater. Sci. (2018) 149, 307-315. Search in Google Scholar

[12] Yu. Zhang, Ya. Zhang, C. Wang, and Y. Zeng, J. Appl. Phys. (2013) 114, 243710 Search in Google Scholar

[13] C.-G. Maa, V. Krasnenko, and M. G. Brik, Solid State Commun. (2015) 205, 55 Search in Google Scholar

[14] H. B. Russell, A. N. Andriotis, M. Menon, J. B. Jasinski, A. Martinez-Garcia, and M. K. Sunkara. Sci. Rep. (2016) 6(1), 1 Search in Google Scholar

[15] S. Lakel, F. Okbi, and H. Meradji. Optik, (2016) 127(8), 3755 Search in Google Scholar

[16] A. Abdollahi, M. M Golzan, and K. Aghayar, K. J. Mater. Sci. (2016) 51(15), 7343-7354 Search in Google Scholar

[17] A.R. Degheidy, E. B. Elkenany, and O. A. Alfrnwani. Comput. Condens. Matter. (2018) 16, e00300 Search in Google Scholar

[18] E. Okbi, S. Lakel, S. Benramache, S, and K. Almi. Semicond. (2020) 54(1), 58-66 Search in Google Scholar

[19] M.Othman, E. R. Kasap, and N. Korozlu. Journal of Alloys and Compounds. (2010) 496(1-2), 226-233 Search in Google Scholar

[20] W. López-Pérez, N. Simon-Olivera, J. Molina-Coronell, A. González-García, and R. González-Hernández. J. ALLOY. COMPD. (2013) 574, 124-130 Search in Google Scholar

[21] W. López-Pérez, P. Castro-Diago, L. Ramírez-Montes, A. González-García, and R. González-Hernández. Philos Mag. (2016) 96(5), 498-510 Search in Google Scholar

[22] Moram, M. A., & Zhang, S. J. Mater. Chem. A. (2014) 2(17), 6042 Search in Google Scholar

[23] Y. Cherchab, B. Amrani, N. Sekkal, M. Ghezali and K. Talbi, Physica E (2008) 40, 606. Search in Google Scholar

[24] M. G. Moreno-Armenta, L. Mancera, and N. Takeuchi. Phys. Status. solidi (b). (2003) 238(1), 127 Search in Google Scholar

[25] S. Mokkapati, and C. Jagadish. Mat. Today, (2009) 12(4), 22 Search in Google Scholar

[26] M.J.W. Rodwell, M. Urteaga,, Y. Betser, T. Mathew, P. Krishnan, D. Scott, and R. P. Smith. Int. J. High Speed Electron. Syst. (2001) 11, 159 Search in Google Scholar

[27] C.S. Menoni, I.L. Spain, Phys. Rev. B. (1987) 35, 7520 Search in Google Scholar

[28] I. Vurgaftman, J.A. Meyer, and L. A. Ram-Mohan. J. Appl. Phys. (2001) 89(11), 5815. Search in Google Scholar

[29] B. Amrani, F. El Hadj, Comput. Mater. Sci. (2007) 39, 563 Search in Google Scholar

[30] W. Celin-Mancera, W. López-Pérez, Á. González-García, L. Ramírez-Montes,, and R. González-Hernández. Comput. Condens. Matter. (2016) 8, 14-21 Search in Google Scholar

[31] M. Othman, E. R. G. Ü. N.. Kasap, and N. Korozlu, N. Physica B: Condensed Matter. (2010) 405(10), 2357 Search in Google Scholar

[32] P. Blaha, K. Schwarz, G.K.H. Madsen, D. Kvasnicka, J. Luitz, WIEN2k, An Augmented Plane Wave Plus Local Orbitals Program for Calculating Crystal Properties, Vienna University of Technology, Vienna, Austria, (2001) Search in Google Scholar

[33] P. Hohenberg, W. Kohn, Phys. Rev. 136 (3B) (1964) B864 Search in Google Scholar

[34] J.P. Perdew, S. Burke, M. Ernzerhof, Phys. Rev. Lett. 77, (1996) 3865. Search in Google Scholar

[35] F. Tran, P. Blaha, K. Schwarz, J. Phys. Condens. Matter 19 (19) (2007) 196208 Search in Google Scholar

[36] Monkhorst, H. J.; Pack, J. D. Phys. Rev. B (1976) 13, 5188 Search in Google Scholar

[37] A. Zunger, S.H. Wei, L.G. Ferreira, J.E. Bernard, Phys. Rev. Lett. 65 (1990) 353 Search in Google Scholar

[38] S. Azzi, A. Zaoui, H. Boublenza, I. S. Messaoudi, and M. Ferhat. J. ALLOY. COMPD. (2014) 588, 133 Search in Google Scholar

[39] A. D. Becke, E. R. Johnson, J. Chem. Phys. (2012) 124, 221101 Search in Google Scholar

[40] F.D. Murnaghan, Proc. Nat. Acad. Sci. USA. (1944) 30, 5390 Search in Google Scholar

[41] A. Baida,, M. Ghezali. Comput. Condens. Matter. (2018) 17, e00333 Search in Google Scholar

[42] A. Bouhemadou, R. Khenata, M. Kharoubi, T. Seddik, A.H. Reshak, Y.A. Douri, Comput. Mater. Sci. (2009) 45, 474 Search in Google Scholar

[43] O. Madelung. Landolt-BÖrnstein, Semiconductors, Physics of Group IV Elements and III–V Compounds New Series, (1982) vol. 17, Springer-Verlag, Berlin Search in Google Scholar

[44] O. Arbouche, B. Belgoumene, B. Soudini, Y. Azzaz, H. Bendaoud, K. Amara, Comput. Mater. Sci. (2010) 47, 685 Search in Google Scholar

[45] W. Zhang, W. Wu, X. Cheng, Physica B. (2010) 05, 4536. Search in Google Scholar

[46] M.I. McMahon, R.J. Nelmes, N.G. Wright, D.R. Allan, in: Proceedings of the Joint Conference of the AIRAPT/APS on High-Pressure Science and Technology, (1993) Search in Google Scholar

[47] C.S. Menoni, I.L. Spain, Phys. Rev. B (1987) 35, 7520 Search in Google Scholar

[48] S. Minomura, H.G. Drickamer, J. Phys. Chem. Solids. (1962) 23, 451 Search in Google Scholar

[49] J.C. Jamieson, Science. (1963) 139, 762 Search in Google Scholar

[50] A. Mujica, R.J. Needs, Phys. Rev. B. (1997) 55, 9659 Search in Google Scholar

[51] M. Jamal. A Package for Calculating Elastic Tensors of Cubic Phases by Using Second-order Derivative with Wien2k Package Search in Google Scholar

[52] D.C. Wallace, Thermodynamics of crystals, Willey, NewYork, (1972) Search in Google Scholar

[53] D. N. Nichols, D. S. Rimai, and R. J. Sladek, Solid State Commun. (1980) 36, 667 Search in Google Scholar

[54] R. Weil and W. O. Groves, J. Appl. Phys. (1968) 39, 4049 Search in Google Scholar

[55] Wang, S. Q., & Ye, H. Q. Phys. Status. Solidi (b). (2003) 240(1), 45-54 Search in Google Scholar

[56] A. Bouhemadou. Comput. Mater. Sci. (2008) 43(4), 1112 [57] P. Rochon, E. Fortin, Phys. Rev. B12n (1975) 5803 Search in Google Scholar

[58] M. Yousaf, M.A. Saeed, R. Ahmed, Commun. Theor. Phys. 58, (2012) 777 Search in Google Scholar

[59] R.A. Swalin, Thermodynamics of Solids, 2nd ed., Series on the Science and Technology of Material, Wiley, New York, (1972) Search in Google Scholar

[60] A Briedi, thesis, Temperature-pressure phase diagrams, structural and electronic properties of binary and pseudobinary semiconductor: an ab initio study, VERLAINEMETZ University, (2011) Search in Google Scholar

[61] PY. Yu and M. Cardona, Fundamental of semi-conductors: physics and materials properties, 4thedt. Springer-Verlag, Berlin and Heidelberg, (1996) Search in Google Scholar

[62] I.Gorczyca, N.E. Christensen, M. Alouani.. Phys. Rev. B, 39(11), (1989) 7705 Search in Google Scholar

[63] M. Nishiwaki, H. Fujiwara, Comput. Mat. Sci.172. (2020) 109315 Search in Google Scholar

[64] S. O. KASAP, Principal of electronic materials and devices, fourth ed., McGraw-Hill Education, (2018) Search in Google Scholar

[65] L. Yu and A. Zunger, Phys. Rev. Lett., (2012) 108, 068701 Search in Google Scholar

[66] M.A. Green et. all, Solar cell efficiency tables (version 56), Prog. Photovolt. Res. Appl. (2020) 28, 629–638 Search in Google Scholar

[67] P. Singh and N.M. Ravindra. Solar Energy Materials & Solar Cells 101, (2012) 36–45 Search in Google Scholar

[68] M.A. Green, Solar Cells, Prentice-Hall, Englewood Cliffs, NJ, (1982) Search in Google Scholar

[69] D. E. Aspnes and A. A. Studna, Phys. Rev. B 27, (1983) 985 Search in Google Scholar

[70] C. M. Herzinger et all., J. Appl. Phys. 77 (1995)1715 Search in Google Scholar

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