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Cation vacancy-mediated ultrafast hole transport in CuBi<sub>2</sub>O<sub>4</sub> photocathodes

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dc.contributor.coauthorYahsi, Ugur
dc.contributor.coauthorTav, Cumali
dc.contributor.departmentDepartment of Physics
dc.contributor.departmentDepartment of Chemistry
dc.contributor.departmentKUYTAM (Koç University Surface Science and Technology Center)
dc.contributor.departmentGraduate School of Sciences and Engineering
dc.contributor.kuauthorArdalı, Emir
dc.contributor.kuauthorJahangiri, Hadi
dc.contributor.kuauthorKaya, Sarp
dc.contributor.kuauthorSennaroğlu, Alphan
dc.contributor.kuauthorSolati, Navid
dc.contributor.schoolcollegeinstituteCollege of Sciences
dc.contributor.schoolcollegeinstituteGRADUATE SCHOOL OF SCIENCES AND ENGINEERING
dc.contributor.schoolcollegeinstituteResearch Center
dc.date.accessioned2025-03-06T20:57:46Z
dc.date.issued2024
dc.description.abstractAs a promising photocathode candidate, tetragonal CuBi2O4 (CBO) has been studied extensively in recent years. As an intrinsically p-type material, its acceptor sites originate from the cation vacancies, which are also a potential cause of hindered hole utilization in photocathodes. In this study, the ultrafast transport dynamics of the valence band hole states in CBO photocathodes were investigated by varying their atomic composition and manipulating the p-type character. As a comprehensive ultrafast optical transient absorption spectroscopy (TAS) investigation of compositionally manipulated CBO that combines both ex situ and in situ TAS experiments with photoelectrochemical (PEC) performance tests, the study reveals the polaron formation tendencies of the valence band (VB) holes at cationic vacancy sites. Therefore, it draws a complete picture of the ultrafast hole transport dynamics and provides valuable insights into the hindrance of the photocurrent generated in CBO.
dc.description.indexedbyWOS
dc.description.indexedbyScopus
dc.description.indexedbyPubMed
dc.description.publisherscopeInternational
dc.description.sponsoredbyTubitakEuTÜBİTAK
dc.description.sponsorshipThis project was supported by The Scientific and Technical Research Council of Tuerkiye (TÜBİTAK) under the grant 221Z070.
dc.identifier.doi10.1002/cssc.202401345
dc.identifier.eissn1864-564X
dc.identifier.grantnoScientific and Technical Research Council of Trkiye (TÜBİTAK) [221Z070]
dc.identifier.issn1864-5631
dc.identifier.quartileQ1
dc.identifier.scopus2-s2.0-85210393512
dc.identifier.urihttps://doi.org/10.1002/cssc.202401345
dc.identifier.urihttps://hdl.handle.net/20.500.14288/27306
dc.identifier.wos1364817700001
dc.keywordsCubi2o4
dc.keywordsPhotocathode
dc.keywordsHer
dc.keywordsPolaron
dc.keywordsDefects
dc.keywordsIn situ
dc.keywordsTas
dc.language.isoeng
dc.publisherWiley-V C H VERLAG GMBH
dc.relation.ispartofCHEMSUSCHEM
dc.subjectChemistry
dc.subjectGreen and sustainable science and technology
dc.titleCation vacancy-mediated ultrafast hole transport in CuBi<sub>2</sub>O<sub>4</sub> photocathodes
dc.typeJournal Article
dspace.entity.typePublication
local.contributor.kuauthorSennaroğlu, Alphan
local.contributor.kuauthorKaya, Sarp
local.contributor.kuauthorJahangiri, Hadi
local.contributor.kuauthorSolati, Navid
local.contributor.kuauthorArdalı, Emir
local.publication.orgunit1College of Sciences
local.publication.orgunit1GRADUATE SCHOOL OF SCIENCES AND ENGINEERING
local.publication.orgunit1Research Center
local.publication.orgunit2Department of Physics
local.publication.orgunit2Department of Chemistry
local.publication.orgunit2KUYTAM (Koç University Surface Science and Technology Center)
local.publication.orgunit2Graduate School of Sciences and Engineering
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