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Interface engineeri...
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Gouillart, LouisUniv Paris Saclay, CNRS, Ctr Nanosci & Nanotechnol C2N, 10 Blvd Thomas Gobert, F-91120 Palaiseau, France.;CNRS, UMR 9006, IPVF, 18 Blvd Thomas Gobert, F-91120 Palaiseau, France.
(author)
Interface engineering of ultrathin Cu(In,Ga)Se2 solar cells on reflective back contacts
- Article/chapterEnglish2021
Publisher, publication year, extent ...
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2020-11-24
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John Wiley & Sons,2021
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printrdacarrier
Numbers
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LIBRIS-ID:oai:DiVA.org:uu-438836
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https://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-438836URI
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https://doi.org/10.1002/pip.3359DOI
Supplementary language notes
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Language:English
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Summary in:English
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Subject category:ref swepub-contenttype
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Subject category:art swepub-publicationtype
Notes
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Cu(In,Ga)Se-2-based (CIGS) solar cells with ultrathin (<= 500 nm) absorber layers suffer from the low reflectivity of conventional Mo back contacts. Here, we design and investigate ohmic and reflective back contacts (RBC) made of multilayer stacks that are compatible with the direct deposition of CIGS at 500 degrees C and above. Diffusion mechanisms and reactions at each interface and in the CIGS layer are carefully analyzed by energy dispersive X-ray (EDX)/scanning transmission electron microscopy (STEM). It shows that the highly reflective silver mirror is efficiently encapsulated in ZnO:Al layers. The detrimental reaction between CIGS and the top In2O3:Sn (ITO) layer used for ohmic contact can be mitigated by adding a 3 nm thick Al2O3 layer and by decreasing the CIGS coevaporation temperature from 550 degrees C to 500 degrees C. It also improves the compositional grading of Ga toward the CIGS back interface, leading to increased open- circuit voltage and fill factor. The best ultrathin CIGS solar cell on RBC exhibits an efficiency of 13.5% (+1.0% as compared to our Mo reference) with a short-circuit current density of 28.9 mA/cm(2) (+2.6 mA/cm(2)) enabled by double-pass absorption in the 510 nm thick CIGS absorber. RBC are easy to fabricate and could benefit other photovoltaic devices that require highly reflective and conductive contacts subject to high temperature processes.
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Cattoni, AndreaUniv Paris Saclay, CNRS, Ctr Nanosci & Nanotechnol C2N, 10 Blvd Thomas Gobert, F-91120 Palaiseau, France.
(author)
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Chen, Wei-ChaoUppsala universitet,Solcellsteknik(Swepub:uu)chewe640
(author)
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Goffard, JulieUniv Paris Saclay, CNRS, Ctr Nanosci & Nanotechnol C2N, 10 Blvd Thomas Gobert, F-91120 Palaiseau, France.
(author)
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Riekehr, LarsUppsala universitet,Solcellsteknik(Swepub:uu)larri928
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Keller, JanUppsala universitet,Solcellsteknik(Swepub:uu)janke498
(author)
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Jubault, MarieEDF R&D, IPVF, 18 Blvd Thomas Gobert, F-91120 Palaiseau, France.
(author)
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Naghavi, NegarCNRS, UMR 9006, IPVF, 18 Blvd Thomas Gobert, F-91120 Palaiseau, France.
(author)
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Edoff, Marika,1965-Uppsala universitet,Solcellsteknik(Swepub:uu)maribode
(author)
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Collin, StephaneUniv Paris Saclay, CNRS, Ctr Nanosci & Nanotechnol C2N, 10 Blvd Thomas Gobert, F-91120 Palaiseau, France.
(author)
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Univ Paris Saclay, CNRS, Ctr Nanosci & Nanotechnol C2N, 10 Blvd Thomas Gobert, F-91120 Palaiseau, France.;CNRS, UMR 9006, IPVF, 18 Blvd Thomas Gobert, F-91120 Palaiseau, France.Univ Paris Saclay, CNRS, Ctr Nanosci & Nanotechnol C2N, 10 Blvd Thomas Gobert, F-91120 Palaiseau, France.
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In:Progress in Photovoltaics: John Wiley & Sons29:2, s. 212-2211062-79951099-159X
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Gouillart, Louis
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Cattoni, Andrea
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Chen, Wei-Chao
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Goffard, Julie
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Riekehr, Lars
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Keller, Jan
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Jubault, Marie
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Naghavi, Negar
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Edoff, Marika, 1 ...
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Collin, Stephane
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