A Carbon Nanotube (CNT)-based SiGe Thin Film Solar Cell Structure
محورهای موضوعی : فصلنامه نانوساختارهای اپتوالکترونیکیHoma hashemi madani 1 , Mohammad Reza Shayesteh 2 , Mohammad Reza Moslemi 3
1 - Department of Electrical Engineering, Yazd Branch, Islamic Azad University, Yazd, Iran
2 - Department of Electrical Engineering, Yazd Branch, Islamic Azad University, Yazd, Iran
3 - Department of Electrical Engineering, Zarghan Branch, Islamic Azad University, Zarghan, Iran.
کلید واژه: Efficiency, Thin Film, Solar Cell, SiGe, Carbon Nanotube (CNT),
چکیده مقاله :
در این مقاله ، ساختاری از سلول خورشیدی فیلم نازک SiGe بر اساس
نانولوله کربنی (CNT) ارائه شده است. ما طراحی و شبیه سازی دستگاه را با استفاده از
Silvaco TCAD ارائه می دهیم. مدل سازی ساختار سلول خورشیدی فیلم نازک SiGe مبتنی بر CNT
انجام شده و سپس با ساختار سلول خورشیدی فیلم نازک SiGe مقایسه می شود.
نتایج حاصل از شبیه سازی عددی نشان می دهد که سلول خورشیدی فیلم نازک SiGe مبتنی بر CNT
دارای پارامترهای بهتری مانند جریان اتصال کوتاه ، ولتاژ مدار باز ، ضریب پر کردن ،
حداکثر توان و کارایی در مقایسه با ساختارهای قبلی است.
نتایج شبیه سازی همچنین ثابت می کند که بازده 40.36٪ افزایش می یابد.
[1] L. F. Kozin, Problems of Development of Hydrogen Power Engineering in Carbon nano materials in clean energy hydrogen system, in Environmental Security, 1ed.,vol 2, Ed. Ukraine, Springer: 2010.
[2] SILVACO, Data system Inc, ATLAS user manual (2016).
[3] R. Pandey, R. Chaujar, Rear contact SiGe solar cell with SiC passivated front surface for >90-percent external quantum efficiency and improved power conversion efficiency. Solar Energy, Vol.135 (Oct, 2016) 242–252.
[4] X. Zhao, D. Li, T. Zhang, B.Conrad, L.Wang, A.H. Soeriyadi, et al, short circuit current and efficiency improvement of SiGe solar cell in a GaAsP-SiGe dual junction solar cell on a Si substrate, Solar Energy Materials & Solar Cells, Vol.159 (Jan, 2017) 86–93.
[5] A. B. Poungou´e Mbeunmi, M. El-Gahouchi, R. Arvinte, A. Jaouad, R. Cheriton, M. Wilkins,et al, Direct growth of GaAs solar cells on Si substrate via mesoporous Si buffer, Solar Energy Materials & Solar Cells, Vol.217 (Nov, 2020) 110641.
[6] Pablo Cano, M. Hinojosa a, H. Nguyen, A.Morgan, D.F.Marron , I.García, et al, Hybrid III-V/SiGe solar cells grown on Si substrates through reverse graded buffers. Solar Energy Materials & Solar Cells, Vol.205 (Feb, 2020) 110246.
[7] Z. Q. Li, Y. G. Xiao, Z. M. Simon Li. Modeling of multijunction solar cells by Crosslight APSYS. Presented at The International Society for Optical Engineering Conference, SPIE 6339 (2006, September).
[8] S. Michael, A.D. Bates, M.S, Green. Silvaco ATLAS as a solar cell modeling tool, Presented at IEEE Photovoltaic Specialists Conference (2005, February).
[9] H. Tasaki, W. Y.Kim, M.Hallerdt, M. Konagai, and K. Takahashi, Computer simulation model of the effects of interface states on high-performance amorphous silicon solar cell. Journal of Applied Physics AIP Vol.63, 550 (Sep, 1988).
[10] H. Hanaei a,n, M.KhalajiAssadi, R.Saidur, Highly efficient antireflective and self-cleaning coatings that incorporate carbon nanotubes(CNTs)in to solar cells. Renewable and Sustainable Energy Reviews 59 (Jan, 2016) 620-635.
[11] X. Zhao a, H. Wu a, L. Yang a, Y. Wu a, Y. Sun, High efficiency CNT-Si heterojunction solar cells by dry gas doping. Carbon Volume 147 (Jun, 2019) 164-171.
84 * Journal of Optoelectronical Nanostructures Winter 2021 / Vol. 6, No. 1
[12] G. Xiao, Ye Tao, J. Lu, Z. Zhang, Highly conductive and transparent carbon nanotube composite thin films deposited on polyethylene terephthalate solution dipping, Thin Solid Films, 518 (Nov, 2010) 2822–2824.
[13] S.N Jafari, A. Ghadimi, S. Rouhi, Strained Carbon Nanotube (SCNT) thin layer effect on GaAs solar cell efficiency. Journal of Optoelectronical Nanostructures, Vol. 5 (2020, Jan.) 87-110. [14] K. Pourchitsaz and M. R. Shayesteh, Self heating effect modeling of a carbon nanotube-based field effect transistor (CNTFET). Journal of Optoelectronical Nanostructures, Vol. 4 (2019, Jan.) 51-66.
[15] S. Widodo, M.N. Hidayat. Fabrication of dye sensitized solar cells with spray coated carbonnano tube (CNT) based counter electrodes. Energy Procedia, Volume 68 (Apr, 2015) 37-44.
[16] Kh. J. Singh. A thin layer of Carbon Nano Tube (CNT) as semi-transparent charge collector that improve the performance of the GaAs Solar Cell. Optik 135 (Jan, 2017) 256–270.
[17] B. Farhadi, M. Naserib. A novel efficient double junction InGaP/GaAs solar cell using a thin carbon nano tube layer. Optik Volume 127(15) (Aug, 2016) 6224-6231.
[18] A. R. Garfrerick. Modeling Heterogeneous Carbon Nanotube Networks for Photovoltaic Applications Using Silvaco Atlas Software. Thesis, Naval Postgraduate School, California, (Jun, 2012).
[19] Institute for micro structural science of Canada/ http://www.istc.int/en/contact-info
[20] Y. Sefidgar, H. Rasooli Saghai, H. Ghatei Khiabani Azar. Enhancing Efficiency of Two-bond Solar Cells Based on GaAs/InGaP. Journal of Optoelectronical Nanostructures, vol. 4 (2019) 83-102.
[21] J.W. Slotboom. Iterative scheme for 1- and 2- dimensional d.c-transistor simulation. Electronics Letters. Vol.5 NO: 26 (Dec, 1969) 677–678.
[22] H.K. Gummel. A self-consistent iterative scheme for one-dimensional steady state transistor calculations. IEEE Trans. Electron Devices, Ed. 11(Oct, 1964) 455–465.
[23] Kh. J. Singh, N. B. Singh, S. K. Sarkar. Textured window with DLAR coating design for an effective minimization of electrical and optical losses in an efficient III–V solar cell. J. Comput. Electron. 1 (Mar, 2015) 288–299.
A Carbon Nanotube (CNT)-based SiGe Thin Film Solar Cell Structure * 85
[24] M.E.Levinshtein, S.L.Rumyantsev, M.S.Shur, Silicon-Germanum (Si1-xGex), in Properties of Advanced Semiconducter Materials: GaN, AlN, InN, BN, SiC, SiGe, Ed. New York: Jhon Wiley & sons, 2001, 149-188.
[25] M.A. Green, Solar cell fill factors: general graph and empirical expressions, Solid-State Electron. Vol.24 (8) (Aug, 1981) 788–789.
[26] N.Rosli, M.A.Ibrahim, N. A. Ludin, M. A.Teridi, K. Sopian, A review of graphene based transparent conducting films for use in solar photovoltaic application,Renewable and Sustainable Energy Reviews 99 (Sep, 2019) 83-99.
[27] Handbook of Electronic and Photonic Materials, 2ed, Springer, 2017, 523-541.
[28] H.Ferhati, F. Djeffal. Role of non-uniform Ge concentration profile in enhancing the efficiency of thin-film SiGe/Si Solar Cells, International Journal for Light and Electron, (Jan, 2017) 7-18.