Title :
Analytical solution of minority-carrier transport in silicon solar cell emitters
Author :
Verhoef, L.A. ; Bisschop, F.J. ; Sinke, W.C.
Author_Institution :
FOM-Inst. for Atomic & Molecular Phys., Amsterdam, Netherlands
Abstract :
A general analytical solution for minority-carrier transport in a nonhomogeneously doped silicon region with a power-law doping profile N(x)=A(x+B)C is derived. It is based on empirical relations between bandgap narrowing, minority-carrier mobility, and minority-carrier lifetime on the one hand and doping density on the other hand. This solution permits calculation of the minority-carrier concentration and dark saturation current density of various device configurations. It is used to evaluate solar cell emitter design. It is found that the use of graded emitters is favored over the use of step junction in the case of a low surface recombination velocity, yielding a reduction of the emitter saturation current density by a factor of two.
Keywords :
carrier density; carrier lifetime; carrier mobility; doping profiles; elemental semiconductors; energy gap; minority carriers; semiconductor device models; silicon; solar cells; Si solar cell; bandgap narrowing; dark saturation current density; doping density; minority-carrier concentration; minority-carrier lifetime; minority-carrier mobility; minority-carrier transport; modelling; power-law doping profile; semiconductors; Current density; Differential equations; Doping profiles; Electrons; Photonic band gap; Photovoltaic cells; Silicon; Steady-state; Temperature; Voltage;
Conference_Titel :
Photovoltaic Specialists Conference, 1988., Conference Record of the Twentieth IEEE
Conference_Location :
Las Vegas, NV, USA
DOI :
10.1109/PVSC.1988.105800
