Synergistic Oxygen Evolving Activity of a TiO2-Rich Reconstructed SrTiO3(001) Surface

Authors
Martirez, John Mark P.Kim, SeungchulMorales, Erie H.Diroll, Benjamin T.Cargnello, MatteoGordon, Thomas R.Murray, Christopher B.Bonnell, Dawn A.Rappe, Andrew M.
Issue Date
2015-03-04
Publisher
AMER CHEMICAL SOC
Citation
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, v.137, no.8, pp.2939 - 2947
Abstract
In addition to composition, the structure of a catalyst is another fundamental determinant of its catalytic reactivity. Recently, anomalous Ti oxide-rich surface phases of ternary oxides have been stabilized as nonstoichiometric epitaxial overlayers. These structures give rise to different modes of oxygen binding, which may lead to different oxidative chemistry. Through density functional theory investigations and electrochemical measurements, we predict and subsequently show that such a TiO2 double-layer surface reconstruction enhances the oxygen evolving activity of the perovskite-type oxide SrTiO3. Our theoretical work suggests that the improved activity of the restructured TiO2(001) surface toward oxygen formation stems from (i) having two Ti sites with distinct oxidation activity and (ii) being able to form a strong O-O moiety (which reduces overbonding at Ti sites), which is a direct consequence of (iii) having a labile lattice O that is able to directly participate in the reaction. Here, we demonstrate the improvement of the catalytic performance of a well-known and well-studied oxide catalyst through more modern methods of materials processing, predicted through first-principles theoretical modeling.
Keywords
WATER-OXIDATION; VISIBLE-LIGHT; PHOTOCATALYTIC ACTIVITIES; STRUCTURAL REQUIREMENTS; DOPED SRTIO3; O-O; EVOLUTION; PHOTOELECTROLYSIS; ELECTROLYSIS; OXIDES; WATER-OXIDATION; VISIBLE-LIGHT; PHOTOCATALYTIC ACTIVITIES; STRUCTURAL REQUIREMENTS; DOPED SRTIO3; O-O; EVOLUTION; PHOTOELECTROLYSIS; ELECTROLYSIS; OXIDES; SrTiO3; Photocatalyst; reconstructed surface; Oxygen evolution reaction; water splitting; density functional theory; first-principles calculations
ISSN
0002-7863
URI
https://pubs.kist.re.kr/handle/201004/125673
DOI
10.1021/ja511332y
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KIST Article > 2015
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