Publication: Response to the comment by T. Maluangnont on "Interlayer atomic voids by partial cesium defect in layered titanate activate photo(electro)catalytic H2 and O2 generation"
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KU-Authors
KU Authors
Co-Authors
Doustkhah, Esmail
Moreno, Jose Julio Gutierrez
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Date
Language
eng
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No
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Abstract
The Comment (DOI: 10.1021/acsaem.5c03253) by T. Maluangnont on the recent study () proposes an alternative explanation to the synthesis mechanisms and final structure of the catalyst reported in the paper, which is based on: (i) proton exchange from the aqueous medium instead of exchange with CTAB
and (ii) phase transition to anatase that contributes to reduce the electronic band gap. We find these assumptions inaccurate and consider that they misinterpret some key aspects of our results by drawing unsupported parallels to previous reports on cesium titanates and layered titanates. These comparisons do not fairly apply to our system because the materials synthesized in our work, along with their processing conditions and defect-engineering strategy, are distinct in both composition and structure. We therefore address each point raised in the Comment individually and demonstrate, with direct experimental and computational evidence, that the interpretations presented in our original paper are scientifically sound, internally consistent, and fully justified.
and (ii) phase transition to anatase that contributes to reduce the electronic band gap. We find these assumptions inaccurate and consider that they misinterpret some key aspects of our results by drawing unsupported parallels to previous reports on cesium titanates and layered titanates. These comparisons do not fairly apply to our system because the materials synthesized in our work, along with their processing conditions and defect-engineering strategy, are distinct in both composition and structure. We therefore address each point raised in the Comment individually and demonstrate, with direct experimental and computational evidence, that the interpretations presented in our original paper are scientifically sound, internally consistent, and fully justified.
Source
Publisher
American Chemical Society
Subject
Chemistry, physical, Energy and fuels, Materials science
Citation
Has Part
Source
ACS Applied Energy Materials
Book Series Title
Edition
DOI
10.1021/acsaem.6c00093
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