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Influences of Partial Destruction of Ti-MOFs on Photo(electro)catalytic H 2 Evolution by Dominating Role of Charge Carrier Trapping over Surface Area.

Aslam HossainM S MeeraE A MukhanovaA V SoldatovA M A HenaishJahangeer AhmedYuanbing MaoSheik Muhammadhu Aboobakar Shibli
Published in: Small (Weinheim an der Bergstrasse, Germany) (2023)
The design of water-stable photo and electrocatalysts of metal-organic frameworks (MOFs) for its promising catalytic applications at long-term irradiations or persisted current loads is extremely necessary but still remains as challenging. A limited number of reports on Ti-MOF-based catalysts for water splitting are only available to explain and understand the correlation between the nature of materials and MOFs array. Herein, spherical Ti-MOFs and corresponding partially annealed hollow core-shell Ti-MOFs (Ti-MOF/D) are designed and the correlation with their photo(electro)catalytic water splitting performance is evaluated. The switchable valence state of Ti for the Ti-MOF as a function of molecular bonding is the possible reason behind the observed photocatalytic hydrogen generation and light-harvesting ability of the system. Besides, the defect state, solid core-shell mesoporous structure, and active sites of Ti-MOF help to trap the charge carriers and the reduction of the recombination process. This phenomenon is absent for hollow core-shells Ti-MOF/D spheres due to the rigid TiO 2 outer surface although there is a contradiction in surface area with Ti-MOF. Considering the diversity of Ti-MOF and Ti-MOF/D, further novel research can be designed using this way to manipulate their properties as per the requirements.
Keyphrases
  • metal organic framework
  • quantum dots
  • single molecule
  • high speed
  • dna repair
  • simultaneous determination