Differential electroluminescence imaging and the current transport efficiency of silicon wafer solar cells

Author

Wong, Johnson ; Sridharan, R. ; Yu Chang Wang ; Mueller, Thomas

Author_Institution

Solar Energy Res. Inst. of Singapore, Singapore, Singapore

fYear

2014

fDate

8-13 June 2014

Abstract

The current transport efficiency of a solar cell, defined as the fraction of local light-induced current that leads to terminal current increase, is experimentally determined for industrially made crystalline silicon wafer solar cells. Fast mapping is possible by simple differential electroluminescence imaging and the application of a reciprocity relationship. The sensitivity of the current transport efficiency to different components of series resistance is studied through computer finite element analysis. A measurement routine that can quantify the current division to the different metal busbars on the solar cell is proposed to qualify screen printed metal fingers.

Keywords

busbars; elemental semiconductors; finite element analysis; silicon; solar cells; Si; computer finite element analysis; crystalline silicon wafer solar cells; current transport efficiency; differential electroluminescence imaging; local light-induced current; metal busbars; series resistance; Electrical resistance measurement; Fingers; Histograms; Imaging; Photovoltaic cells; Resistance; Silicon; amorphous materials; charge carrier lifetime; photovoltaic cells; silicon;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th

Conference_Location

Denver, CO

Type

conf

DOI

10.1109/PVSC.2014.6925078

Filename

6925078