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AuthorMohamed, Ahmed S.
AuthorAbdulla, Ali
AuthorIbrahim, Yassmin
AuthorEid, Kamel
AuthorAbdullah, Aboubakr M.
AuthorOzoemena, Kenneth I.
Available date2022-09-27T09:33:55Z
Publication Date2021-01-01
Publication NameRSC Nanoscience and Nanotechnology
Identifierhttp://dx.doi.org/10.1039/9781839164606-00127
CitationMohamed, A. S., Abdulla, A., Ibrahim, Y., Eid, K., Abdullah, A. M., & Ozoemena, K. I. (2021). Graphitic carbon nitride nanostructures as potent catalysts for water splitting: theoretical insights. In Carbon Nitride Nanostructures for Sustainable Energy Production and Environmental Remediation (pp. 127-173).‏
ISSN17577136
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85109139847&origin=inward
URIhttp://hdl.handle.net/10576/34541
AbstractThe water-splitting reaction is a highly promising green and sustainable energy source. However, finding effective catalysts for both water reduction and oxidation is an unnerving challenge. Graphitic carbon nitride (gCN) is among the most auspicious electrodes for water splitting due to its unique physicochemical properties (i.e., thermal-physical-chemical stability, electron density, and active sites) and semiconducting merits (i.e., small band gap energy of 2.7 eV, high visible light absorption, and high photocurrent density at lower potential). Unlike previous article reviews and book chapters, this book chapter emphasizes the recent advances in gCNs as electrodes for water-splitting reactions from a theoretical or fundamental perspective rooting from self-standing gCNs to transition metals/gCNs, noble metals/gCNs, and doped gCNs for water splitting. In addition, this work presents the mechanisms of water-splitting reactions on gCN materials along with their challenges and future perspectives.
Languageen
PublisherRoyal Society of Chemistry
SubjectChemical stability
Electrodes
Energy gap
Graphitic Carbon Nitride
Light absorption
TitleCHAPTER 4: Graphitic Carbon Nitride Nanostructures as Potent Catalysts for Water Splitting: Theoretical Insights
TypeBook chapter
Pagination127-173
Issue Number51
Volume Number2021-January
dc.accessType Abstract Only


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