Influence of CdS films synthesized by different methods on the photovoltaic performance of CdTe/CdS thin film solar cells

Jun Wang; Yuquan Wang; Cong Liu; Meiling Sun; Cao Wang; Guangchao Yin; Fuchao Jia; Yannan Mu; Xiaolin Liu; Haibin Yang

doi:10.1088/1674-1056/abad22

[1] T Akbarnejad, Z Ghorannevis, E Mohammadi, L Fekriaval. J. Electroanal. Chem, 849(2019).

[2] A A Ojo, H I Salim, O I Olusola, M L Madugu, I M Dharmadasa. J. Mater. Sci-Mater. El, 28, 3254(2017).

[3] G Stechmann, S Zaefferer, P Konijnenberg, D Raabe, C Gretener, L Kranz, J Perrenoud, S Buecheler, A N Tiwari. Sol. Energ. Mat. Sol. C, 151, 66(2016).

[4] M Sabet, M S Niasari, O Amiri. Electrochim. Acta, 117, 504(2014).

[5] O Vigil-Galán, F A Pulgarín, F Cruz-Gandarilla, M Courel, G Villarreal-Ruiz, Y Sánchez, D Jiménez-Olarte, E Saucedo. Mater. Design, 99, 254(2016).

[6] M A Baghchesara, R Yousefi, M Cheraghizade, F Jamali-Sheini, A Saáedi. Ceram. Int, 42, 1891(2016).

[7] K Xie, Z Wu, M Y Wang, J D Yu, C Gong, L Sun, C J Lin. Electrochem. Commun, 63, 56(2016).

[8] G D Zhao, M L Sun, X L Liu, J Y Xuan, W C Kong, R N Zhang, Y P Sun, F C Jia, G C Yin, B Liu. Electrochim. Acta, 304, 334(2019).

[9] J Wang, S R Liu, Y N Mu, L Liu, , P Y Su, J D Yang, G J Zhu, W Y Fu, H B Yang. J. Colloid. Interf. Sci, 505, 59(2017).

[10] H Li, X Liu. Sol. Energy, 115, 603(2015).

[11] V Senthamilselvi, K Saravanakumar, N Jabena Begum, R Anandhi, A T Ravichandran, B Sakthivel, K Ravichandran. J. Mater. Sci-Mater. El, 23, 302(2012).

[12] X D He, Y Wang, K F Jia, Y T Zhang. Mater. Lett, 181, 244(2016).

[13] W C Peng, J Li, B J Chen, N Wang, G H Luo, F Wei. Catal. Commun, 74, 39(2016).

[14] H Yamamoto, M Aizawa, Z Zhuang. Power Technol, 222, 193(2012).

[15] Z J Lin, Q Zhu, Y Dong, S H Liu, J G Li, X D Li, D Huo, M Zhang, M Xie, X D Sun. Cryst. Eng. Comm, 18, 3768(2016).

[16] J H Tao, J F Liu, L L Chen, H Y Cao, X K Meng, Y B Zhang, C J Zhang, L Sun, P X Yang, J H Chu. Green Chem, 18, 550(2016).

[17] Y X Guo, J C Jiang, S H Zuo, F W Shi, J H Tao, Z G Hu, X B Hu, G J Hu, P X Yang, J H Chu. Sol. Energ. Mat. Sol. C, 178, 186(2018).

[18] K Ravichandran, P Philominathan. Appl. Surf. Sci, 255, 5736(2009).

[19] X F Gao, W T Sun, Z D Hu, G A Zhang, S Feng, F Li, L M Peng. J. Phys. Chem. C, 113(2009).

[20] D Esparza, I Zarazúa, T López-Luke, A Cerdán-Pasarán, A Sánchez-Solís, A Torres-Castro, I Mora-Sero, E D Rosa. J. Phys. Chem. C, 119(2015).

[21] X Mathew, J P Enriquez, A Romeo, A N Tiwari. Sol. Energy, 77, 831(2004).

[22] W Jaegermann, A Klein, J Fritsche, D Kraft, B Späth. MRS Proceedings, 865, F6.1(2005).

[23] A Morales-Acevedo. Sol. Energy Mater. Sol. Cells, 90, 2213(2006).

[24] J P Enríquez, E G Barojas, R S González, U Pal. Sol. Energy Mater. Sol. Cells, 91, 1392(2007).

[25] J Wang, S R Liu, Y N Mu. J. Colloid. Interf. Sci, 505, 1047(2017).

[26] J Wang, S R Liu, X W Meng. Electrochim. Acta, 258, 858(2017).

[27] M Sun, W Fu, Q Li. Rsc Adv, 4, 7178(2014).

[28] J N Alexander, S Higashiya, D Caskey. Sol. Energy Mater. Sol. Cells, 125, 47(2014).

[29] A Abbas, P Kaminski, G West, K Barth, W S Sampath, J Bowers, J M Walls. MRS Proceedings, 1738, 7(2015).

[30] A Abbas, G D West, J W Bowers, P M Kaminski, B Maniscalco, J M Walls, K L Barth, W S Sampath. MRS Proceedings, 1638, 9(2014).

[31] S G Kumar, K S R K Rao. Energy Environ. Sci, 7, 45(2014).

[32] C S Ferekides, D Marinskiy, V Viswanathan, B Tetali, V Palekis, P Selvaraj, D L Morel. Thin Solid Film, 361-362, 520(2000).

[33] J F Han, G H Fu, V Krishnakumar. Thin Solid Films, 582, 290(2015).