Cover feature: defect‐induced ordered mesoporous titania molecular sieves: a unique and highly efficient hetero‐phase photocatalyst for solar hydrogen generation (ChemNanoMat 12/2023)
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Date
2023-12
Journal Title
Journal ISSN
Volume Title
Publisher
Wiley
Abstract
Defect-induced nitrogen-doped hetero-phase titania possesses a well-crystallized mesoporous structure with high surface area and accessible active sites that facilitates enhanced water adsorption and efficient electron transfer, thus overcoming the limitations of bulk titania. Consequently, these materials show remarkable performance in utilizing solar energy for generating hydrogen from water. These attributes make them highly favorable contenders for next-generation water splitting technologies. More information can be found in the Research Article by Parasuraman Selvam et al.
Description
Keywords
Nitrogen, Hydrogen, Solar energy, Crystallization, Photocatalysis, Separation processes, Ultraviolet spectra, Titanium
Citation
Gupta, S., Vatti, S. K., Gu, Q., Wagh, D., Manyar, H., & Selvam, P. (2023). Cover Feature: defect‐induced ordered mesoporous titania molecular sieves: a unique and highly efficient hetero‐phase photocatalyst for solar hydrogen generation (ChemNanoMat 12/2023). ChemNanoMat, 9(12), e202300413. doi:10.1002/cnma.202300413