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Tunable oxygen vacancies in CeO nanorods via one-step NaBH-assisted synthesis for enhanced visible-light photocatalytic water splitting

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Published in:Materials for Renewable and Sustainable Energy
Format: Online Article RSS Article
Published: 2026
Subjects:
Renewal Energy
General
Journal Article
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FRELIP Feed Integration
container_title Materials for Renewable and Sustainable Energy
description
discipline_display Renewal Energy
discipline_facet Renewal Energy
format Online Article
RSS Article
genre Journal Article
id rss_article:58551
institution FRELIP
journal_source_facet Materials for Renewable and Sustainable Energy
publishDate 2026
publishDateSort 2026
record_format rss_article
spellingShingle Tunable oxygen vacancies in CeO nanorods via one-step NaBH-assisted synthesis for enhanced visible-light photocatalytic water splitting
Renewal Energy
General
Renewal Energy
sub_discipline_display General
sub_discipline_facet General
subject_display Renewal Energy
General
Renewal Energy
Renewal Energy
General
Renewal Energy
subject_facet Renewal Energy
General
Renewal Energy
title Tunable oxygen vacancies in CeO nanorods via one-step NaBH-assisted synthesis for enhanced visible-light photocatalytic water splitting
title_auth Tunable oxygen vacancies in CeO nanorods via one-step NaBH-assisted synthesis for enhanced visible-light photocatalytic water splitting
title_full Tunable oxygen vacancies in CeO nanorods via one-step NaBH-assisted synthesis for enhanced visible-light photocatalytic water splitting
title_fullStr Tunable oxygen vacancies in CeO nanorods via one-step NaBH-assisted synthesis for enhanced visible-light photocatalytic water splitting
title_full_unstemmed Tunable oxygen vacancies in CeO nanorods via one-step NaBH-assisted synthesis for enhanced visible-light photocatalytic water splitting
title_short Tunable oxygen vacancies in CeO nanorods via one-step NaBH-assisted synthesis for enhanced visible-light photocatalytic water splitting
title_sort tunable oxygen vacancies in ceo nanorods via one-step nabh-assisted synthesis for enhanced visible-light photocatalytic water splitting
topic Renewal Energy
General
Renewal Energy
url https://link.springer.com/article/10.1007/s40243-026-00359-5

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