Minority Carrier Distribution in the Base Region of a pn Junction Silicon Solar Cell and its Contribution to the Spectral Response

Ashim Kumar Biswas; Avigyan Chatterjee; Sayantan Biswas; Amitabha Sinha

Minority Carrier Distribution in the Base Region of a pn Junction Silicon Solar Cell and its Contribution to the Spectral Response

Year 2014, Volume: 4 Issue: 3, 791 - 794, 01.09.2014

Ashim Kumar Biswas Avigyan Chatterjee Sayantan Biswas Amitabha Sinha

Abstract

Analytical and experimental research work has been previously by various researchers on silicon solar cells. In this paper, an analytical study has been carried out on the light generated excess minority carrier distribution and photocurrent in the base region of a p+ n junction solar cell. The effect of back surface recombination velocity, doping and absorption coefficient on the minority carrier distribution in the n type base layer have been observed and the spectral response component due to this region has been obtained. The minority carrier profile helps in understanding the physics of the solar cells.

Keywords

minority carrier distribution; solar cell; surface recombination velocity; spectral response.

References

D.M. Chapin, C.S. Fuller and G.L. Pearson, “A new silicon p-n junction photocell for converting solar radiation into electrical power”. J. Appl. Phys. vol. 25, pp. 676 - 677, May 1954.
B. Dale and P. Smith, “Spectral response of solar cells”, J. Appl. Phys. vol. 25, pp.1377-1381, July 1961.
R. Gereth, H. Fischer, E. Link, S. Mattes and W. Pschunder, “Contribution to Silicon solar cell technology, Energy Conversion, vol. 12, pp. 103- 107, Sept. 1972.
A.W. Blakers and M.A. Green, “20% efficiency silicon solar cells”, Appl. Phys. Lett., vol. 48, pp.215-217, Jan 1986.
W. Wang, J. Zhao and M.A. Green, “24% efficiency silicon solar cells”, Appl. Phys. Lett. vol. 57, pp. 602-604, August 1990.
P. Doshi and A. Rohatgi, “18% efficient silicon photovoltaic devices by rapid thermal diffusion and oxidation”, IEEE Trans. Electron Dev. vol. 45, pp. 1710-1716, August 1998.
V. Perraki, “Modeling of recombination velocity and doping influence in epitaxial silicon solar cells”, Solar Energy Materials and Solar Cells, vol. 94, pp. 1597-1603, June 2010.
A. Kassis and M. Saad, “Analysis of multi- crystalline silicon solar cells at low illumination levels using a modified two-diode model”, Solar Energy Materials & Solar Cells, vol. 94, pp. 2108- 2112, 2010.
A. Chatterjee, A. K. Biswas and A. Sinha, “Analytical Study of the minority carrier distribution and photocurrent of a Schottky - barrier silicon solar cell”, International Journal of Renewable Energy Research, vol. 4, No.2, pp. 504- 507, June 2014.
H. J. Hovel, Semiconductors and Semimetals, vol.11, Solar cells, Academic Press, New York, 1975, pp. 15-20.
S. M. Sze and K. K. Ng, Physics of Semiconductor devices, John Wiley & Sons, 2007, pp. 725 - 730.

Year 2014, Volume: 4 Issue: 3, 791 - 794, 01.09.2014

Ashim Kumar Biswas Avigyan Chatterjee Sayantan Biswas Amitabha Sinha

Abstract

References

D.M. Chapin, C.S. Fuller and G.L. Pearson, “A new silicon p-n junction photocell for converting solar radiation into electrical power”. J. Appl. Phys. vol. 25, pp. 676 - 677, May 1954.
B. Dale and P. Smith, “Spectral response of solar cells”, J. Appl. Phys. vol. 25, pp.1377-1381, July 1961.
R. Gereth, H. Fischer, E. Link, S. Mattes and W. Pschunder, “Contribution to Silicon solar cell technology, Energy Conversion, vol. 12, pp. 103- 107, Sept. 1972.
A.W. Blakers and M.A. Green, “20% efficiency silicon solar cells”, Appl. Phys. Lett., vol. 48, pp.215-217, Jan 1986.
W. Wang, J. Zhao and M.A. Green, “24% efficiency silicon solar cells”, Appl. Phys. Lett. vol. 57, pp. 602-604, August 1990.
P. Doshi and A. Rohatgi, “18% efficient silicon photovoltaic devices by rapid thermal diffusion and oxidation”, IEEE Trans. Electron Dev. vol. 45, pp. 1710-1716, August 1998.
V. Perraki, “Modeling of recombination velocity and doping influence in epitaxial silicon solar cells”, Solar Energy Materials and Solar Cells, vol. 94, pp. 1597-1603, June 2010.
A. Kassis and M. Saad, “Analysis of multi- crystalline silicon solar cells at low illumination levels using a modified two-diode model”, Solar Energy Materials & Solar Cells, vol. 94, pp. 2108- 2112, 2010.
A. Chatterjee, A. K. Biswas and A. Sinha, “Analytical Study of the minority carrier distribution and photocurrent of a Schottky - barrier silicon solar cell”, International Journal of Renewable Energy Research, vol. 4, No.2, pp. 504- 507, June 2014.
H. J. Hovel, Semiconductors and Semimetals, vol.11, Solar cells, Academic Press, New York, 1975, pp. 15-20.
S. M. Sze and K. K. Ng, Physics of Semiconductor devices, John Wiley & Sons, 2007, pp. 725 - 730.

There are 11 citations in total.

Details

Primary Language	English
Journal Section	Articles
Authors	Ashim Kumar Biswas This is me Avigyan Chatterjee This is me Sayantan Biswas This is me Amitabha Sinha This is me
Publication Date	September 1, 2014
Published in Issue	Year 2014 Volume: 4 Issue: 3

Cite

APA	Biswas, A. K., Chatterjee, A., Biswas, S., Sinha, A. (2014). Minority Carrier Distribution in the Base Region of a pn Junction Silicon Solar Cell and its Contribution to the Spectral Response. International Journal Of Renewable Energy Research, 4(3), 791-794.
AMA	Biswas AK, Chatterjee A, Biswas S, Sinha A. Minority Carrier Distribution in the Base Region of a pn Junction Silicon Solar Cell and its Contribution to the Spectral Response. International Journal Of Renewable Energy Research. September 2014;4(3):791-794.
Chicago	Biswas, Ashim Kumar, Avigyan Chatterjee, Sayantan Biswas, and Amitabha Sinha. “Minority Carrier Distribution in the Base Region of a Pn Junction Silicon Solar Cell and Its Contribution to the Spectral Response”. International Journal Of Renewable Energy Research 4, no. 3 (September 2014): 791-94.
EndNote	Biswas AK, Chatterjee A, Biswas S, Sinha A (September 1, 2014) Minority Carrier Distribution in the Base Region of a pn Junction Silicon Solar Cell and its Contribution to the Spectral Response. International Journal Of Renewable Energy Research 4 3 791–794.
IEEE	A. K. Biswas, A. Chatterjee, S. Biswas, and A. Sinha, “Minority Carrier Distribution in the Base Region of a pn Junction Silicon Solar Cell and its Contribution to the Spectral Response”, International Journal Of Renewable Energy Research, vol. 4, no. 3, pp. 791–794, 2014.
ISNAD	Biswas, Ashim Kumar et al. “Minority Carrier Distribution in the Base Region of a Pn Junction Silicon Solar Cell and Its Contribution to the Spectral Response”. International Journal Of Renewable Energy Research 4/3 (September 2014), 791-794.
JAMA	Biswas AK, Chatterjee A, Biswas S, Sinha A. Minority Carrier Distribution in the Base Region of a pn Junction Silicon Solar Cell and its Contribution to the Spectral Response. International Journal Of Renewable Energy Research. 2014;4:791–794.
MLA	Biswas, Ashim Kumar et al. “Minority Carrier Distribution in the Base Region of a Pn Junction Silicon Solar Cell and Its Contribution to the Spectral Response”. International Journal Of Renewable Energy Research, vol. 4, no. 3, 2014, pp. 791-4.
Vancouver	Biswas AK, Chatterjee A, Biswas S, Sinha A. Minority Carrier Distribution in the Base Region of a pn Junction Silicon Solar Cell and its Contribution to the Spectral Response. International Journal Of Renewable Energy Research. 2014;4(3):791-4.