2011
DOI: 10.1063/1.3555588
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Recombination in compensated crystalline silicon for solar cells

Abstract: Deliberate compensation of crystalline silicon results in a decrease in the equilibrium carrier concentration, which leads to an increased carrier lifetime for the intrinsic recombination processes of Auger and radiative recombination. We present modeling which reveals that compensation also often leads to a significant increase in lifetime for recombination through defects via the Shockley-Read-Hall mechanism, a conclusion which is confirmed experimentally for the case of interstitial iron in p-type silicon. … Show more

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Cited by 27 publications
(13 citation statements)
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“…This illustrates well the positive outcome of compensation on carrier lifetime before lightinduced degradation, which was previously reported and analyzed by several groups [30][31][32].…”
Section: Doping and Lifetime Profilesmentioning
confidence: 50%
See 1 more Smart Citation
“…This illustrates well the positive outcome of compensation on carrier lifetime before lightinduced degradation, which was previously reported and analyzed by several groups [30][31][32].…”
Section: Doping and Lifetime Profilesmentioning
confidence: 50%
“…Both ingots Cz#U1 and CZ#U2 having the same [B] profile, they also have the same BO defect density profile. Since the BO recombination center is a deep level with a capture cross section for electrons which does not differ strongly from that for holes [33] (capture cross section ratio of about 10 for the BO defect against around 1000 for interstitial iron), its recombination activity does not vary much with the majority carrier density [34].…”
Section: I-v Characteristics D Before Degradationmentioning
confidence: 99%
“…Compensation doping has been found to be an efficient way to control ingot resistivity when using solar-grade silicon feedstocks [21]- [23]. Carrier recombination, which is being driven by the net doping rather than the sum of the dopant concentrations, can be improved by compensation [24]. However, the mobility is driven by the sum of the dopant concentrations rather than the net doping [25].…”
Section: Measuring the Influence Of Compensationmentioning
confidence: 99%
“…The equilibrium carrier density (p 0 ) in the base of crystalline silicon (Si) solar cell devices has a great influence on their performance. Especially in boron (B) and phosphorus (P) compensated Si, such as low-cost upgraded metallurgicalgrade (UMG) Si, 1 p 0 has been found both by theoretical 2,3 and experimental studies 2,[4][5][6][7] to be a key parameter to optimize the material's electrical properties and the device performance. Most of the recently published papers 3,6,[8][9][10][11] dealing with compensated Si consider p 0 to be equal to the net doping N A -N D , implicitly assuming that all the dopants are ionized at room temperature (T).…”
mentioning
confidence: 99%