Abstract
In order to investigate the light-induced-degradation (LID) and regeneration of industrial PERC solar cells made from different positions of silicon wafers in a silicon ingot, five groups of silicon wafers were cut from a commercial solar-grade boron-doped Czochralski silicon (Cz-Si) ingot from top to bottom with a certain distance and made into PERC solar cells by using the standard industrial process after measuring lifetimes of minority carriers and concentrations of boron, oxygen, carbon, and transition metal impurities. Then, the changes of their I - V characteristic parameters (efficiency η , open-circuit voltage V oc , short-circuit current I sc , and fill factor FF ) with time were in situ measured by using a solar cell I - V tester during the 1st LID (45°C, 1 sun, 12 h), regeneration (100°C, 1 sun, 24 h), and 2nd LID (45°C, 1 sun, 12 h). The results show that the LID and regeneration of the PERC solar cells are caused by the transition of B-O defects playing a dominant role together with the dissociation of Fe-B pairs playing a secondary role. The decay of η during the 1st LID is caused by the degradation of V oc , I sc , and FF , while the increase of η during the regeneration is mainly contributed by V oc and FF , and the decay of η during the 2nd LID is mainly induced by the degradation of I sc . After regeneration, the decay rate of η reduces from 4.43%–5.56% (relative) during the 1st LID to 0.33%–1.75% (relative) during the 2nd LID.
Highlights
Boron-doped (B-doped) Czochralski silicon (Cz-Si) 11solar cells possess the advantages of low cost, high efficiency, and mature production technology, they have a problem of light-induced degradation (LID) which restricts their development
I sc, and FF, while the increase of η during the regeneration is mainly contributed by V oc and FF, and the decrease of η during the 2nd LID is mainly caused by the decrease of I sc
Five groups of silicon wafers cut from a solar grade Czsilicon ingot from the top to bottom with a certain distance were made into PERC solar cells by using the standard industrial process; the as-prepared PERC solar cells were treated and in situ measured on a solar cell I-V tester by 1st LID (45°C, 1 sun, 12 h), regeneration (100°C, 1 sun, 24 h), and 2nd LID (45°C, 1 sun, 12 h)
Summary
Boron-doped (B-doped) Czochralski silicon (Cz-Si) 11solar cells possess the advantages of low cost, high efficiency, and mature production technology, they have a problem of light-induced degradation (LID) which restricts their development. The electrical performance of B-doped Cz-Si solar cells can nearly be recovered, and especially, they possess an anti-LID ability under solar cell working conditions. There are few reports on the LID and regeneration of B-doped CzSi solar cells especially the new type PERC solar cells. Different from previous studies, this paper focuses on in situ investigation on the LID and regeneration of industrialized PERC solar cells fabricated by using the silicon wafers from different positions of a commercial B-doped Cz-Si ingot. The research results are helpful to clarify the effects of the silicon wafer positions and resultant impurity concentration difference on the LID and regeneration of the industrialized PERC solar cells
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