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Defect states in hybrid solar cells consisting of Sb2S3 quantum dots and TiO2 nanoparticles
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| DC Field | Value | Language |
|---|---|---|
| dc.contributor.author | Lee, Dong Uk | - |
| dc.contributor.author | Pak, Sang Woo | - |
| dc.contributor.author | Cho, Seong Gook | - |
| dc.contributor.author | Kim, Eun Kyu | - |
| dc.contributor.author | Seok, Sang Il | - |
| dc.date.accessioned | 2022-07-16T09:15:24Z | - |
| dc.date.available | 2022-07-16T09:15:24Z | - |
| dc.date.created | 2021-05-12 | - |
| dc.date.issued | 2013-07 | - |
| dc.identifier.issn | 0003-6951 | - |
| dc.identifier.uri | https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/162435 | - |
| dc.description.abstract | We have studied defect states in an organic-inorganic hybrid solar cell containing Sb2S3 quantum dots (QDs) and TiO2 nanoparticles (NPs) by using deep level transient spectroscopy (DLTS). An Au electrode was deposited as a Schottky contact on the sample, where the Sb2S3 QDs were distributed on the surface of TiO2 NPs by chemical synthesis. The activation energy and capture-cross section of an interface state between the Sb2S3 QDs and the TiO2 NPs were found to be about 0.78 eV and 2.21 x 10(-9) cm(-2), respectively. Also, the densities of this interface trap under a measurement voltage of -1 V were approximately 2.5 x 10(17) cm(-3). Based on these results, the interface trap was positioned around E-c - 1.03 eV below the conduction band edge of Sb2S3 QD. Thus, the external quantum efficiency of the solar cell was affected because of its role as a recombination center for carriers generated from Sb2S3 QDs. | - |
| dc.language | 영어 | - |
| dc.language.iso | en | - |
| dc.publisher | AMER INST PHYSICS | - |
| dc.title | Defect states in hybrid solar cells consisting of Sb2S3 quantum dots and TiO2 nanoparticles | - |
| dc.type | Article | - |
| dc.contributor.affiliatedAuthor | Kim, Eun Kyu | - |
| dc.identifier.doi | 10.1063/1.4813272 | - |
| dc.identifier.scopusid | 2-s2.0-84880464683 | - |
| dc.identifier.wosid | 000321761000093 | - |
| dc.identifier.bibliographicCitation | APPLIED PHYSICS LETTERS, v.103, no.2, pp.1 - 5 | - |
| dc.relation.isPartOf | APPLIED PHYSICS LETTERS | - |
| dc.citation.title | APPLIED PHYSICS LETTERS | - |
| dc.citation.volume | 103 | - |
| dc.citation.number | 2 | - |
| dc.citation.startPage | 1 | - |
| dc.citation.endPage | 5 | - |
| dc.type.rims | ART | - |
| dc.type.docType | Article | - |
| dc.description.journalClass | 1 | - |
| dc.description.isOpenAccess | N | - |
| dc.description.journalRegisteredClass | scie | - |
| dc.description.journalRegisteredClass | scopus | - |
| dc.relation.journalResearchArea | Physics | - |
| dc.relation.journalWebOfScienceCategory | Physics, Applied | - |
| dc.subject.keywordPlus | EFFICIENT | - |
| dc.subject.keywordPlus | NANOCRYSTALS | - |
| dc.subject.keywordPlus | PARTICLES | - |
| dc.subject.keywordPlus | PBS | - |
| dc.subject.keywordPlus | Activation energy | - |
| dc.subject.keywordPlus | Deep level transient spectroscopy | - |
| dc.subject.keywordPlus | Gold deposits | - |
| dc.subject.keywordPlus | Nanoparticles | - |
| dc.subject.keywordPlus | Semiconductor quantum dots | - |
| dc.subject.keywordPlus | Titanium dioxide | - |
| dc.identifier.url | https://aip.scitation.org/doi/10.1063/1.4813272 | - |
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