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AuthorHezam A.
AuthorNamratha K.
AuthorDrmosh Q.A.
AuthorPonnamma D.
AuthorNagi Saeed A.M.
AuthorGanesh V.
AuthorNeppolian B.
AuthorByrappa K.
Available date2022-05-31T19:01:10Z
Publication Date2018
Publication NameJournal of Materials Chemistry A
ResourceScopus
Identifierhttp://dx.doi.org/10.1039/c8ta08033j
URIhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85056125912&doi=http://dx.doi.org/10.1039%2fc8ta08033j&partnerID=40&md5=d89ee4a22a7e4af7b2e45b66ca204fd1
URIhttp://hdl.handle.net/10576/31738
AbstractIn this work, a direct Z-scheme Cs2O-Bi2O3-ZnO heterostructure without any electron mediator is fabricated by a simple solution combustion route. Cs2O is chosen as a sensitizer to expand the light absorption range, and in addition, its conduction band minimum (CBM) and valence band maximum (VBM) positions are suitable to construct a direct Z-scheme system with ZnO and Bi2O3. Structural and elemental analyses show clear evidence for heterostructure formation. The Z-scheme charge carrier migration pathway in Cs2O-Bi2O3-ZnO is confirmed by high resolution XPS and ESR studies. The fabricated heterostructure exhibits a good ability to split water to H2 and O2 under simulated sunlight irradiation without any sacrificial agents or co-catalysts and has excellent photostability. The apparent quantum efficiency of the optimized Cs2O-Bi2O3-ZnO heterostructure reaches up to 0.92% at 420 nm. The excellent efficiency of this fabricated heterostructure is attributed to the efficient charge carrier separation, the high redox potential of the CBM and VBM benefiting from a direct Z-scheme charge carrier migration pathway and the extended light absorption range.
Languageen
PublisherRoyal Society of Chemistry
Subjectphotocatalytic
TitleDirect Z-scheme Cs2O-Bi2O3-ZnO heterostructures for photocatalytic overall water splitting
TypeArticle
Pagination21379-21388
Issue Number43
Volume Number6
dc.accessType Abstract Only


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