Title :
High efficiency silicon MIS/IL solar cells under external back bias
Author :
Abou Alsoud, A.K. ; Elfaramawy, N. ; Attala, Mohammed E. ; Hafez, Alaa S.
Author_Institution :
Fac. of Eng., Alexandria Univ., Egypt
Abstract :
A model to study the performance of a metal-insulator-semiconductor with induced inversion layer (MIS/IL) solar cells as the Al/tunnel-oxide/p-Si structure was developed. The solution included the effect of change in cell parameters namely: doping concentration, oxide thickness, mobile charge density and metal work function. It also included the dependence on the mobile charge density and fixed oxide charge density. A back bias applied between substrate and metal inversion grid was added to the solution. It bias found out that the efficiency is sensitive to change in external back bias. Optimization of efficiency was sought in the range, when 013m<5×1013 (cm-2), doping concentration 3×101616 (cm-3), and metal work function 3<φm<3.5 (eV). Numerical results show that optimum efficiency was essentially located around V=0.6 volts.
Keywords :
MIS devices; carrier mobility; semiconductor doping; silicon; solar cells; work function; Al; Si; SiO2; cell parameters; doping concentration; efficiency optimization; external back bias; high efficiency silicon MIS/IL solar cells; induced inversion layer; metal inversion grid; metal work function; metal-insulator-semiconductor; mobile charge density; oxide thickness; Doping; Gaussian processes; Permittivity; Photovoltaic cells; Poisson equations; Silicon; Substrates;
Conference_Titel :
Radio Science Conference, 2002. (NRSC 2002). Proceedings of the Nineteenth National
Print_ISBN :
977-5031-72-9
DOI :
10.1109/NRSC.2002.1022663
