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Electron Injection Study of Photoexcitation Effects on Supported Subnanometer Pt Clusters for CO2 Photoreduction

Abstract

Using density functional theory, we study the effect of injected electrons (simulating photoexcited electrons) on the energetics, structures, and binding sites available to CO2 molecules on subnanometer Pt clusters decorated onto anatase TiO2 (101) surfaces, shedding light on the first and key step of CO2 photoreduction. Upon the addition of one, two, or three electrons, the O-C-O angles of adsorbed CO2 become progressively smaller in binding sites that directly contact Pt, while no significant change is found in the intra bond length of the adsorbed CO2 and in bonding distances between the adsorbed CO2 and supported clusters. The extra electrons lead to the stabilization of adsorption sites identified on neutral slabs, including previously metastable configurations, suggesting enhancement of accessible CO2 binding sites. Furthermore, supported clusters are able to populate the electronic states of adsorbed CO2 species, facilitating the formation of the CO2- anion. To help interpret experimentally observed frequencies, conversion factors are proposed to gain insight into the charge state and O-C-O angle of the adsorbed CO2. Interestingly, upon electron addition, cluster reconstruction may exist due to the bonding inclination between CO2 and atoms in the Pt cluster, further stabilizing the intermediate complexes. Finally, the rate-limiting step (C-O bond cleavage) in the CO2dissociation to CO is slightly reduced by the introduction of an extra electron. results show that subnanometer metal clusters based photocatalysts are good candidates for successful development of CO2 photoreduction.

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Publication details

The article was received on 28 Jan 2018, accepted on 09 May 2018 and first published on 10 May 2018


Article type: Paper
DOI: 10.1039/C8CP00619A
Citation: Phys. Chem. Chem. Phys., 2018, Accepted Manuscript
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    Electron Injection Study of Photoexcitation Effects on Supported Subnanometer Pt Clusters for CO2 Photoreduction

    C. Yang, B. Wood, V. R. Bhethanabotla and B. Joseph, Phys. Chem. Chem. Phys., 2018, Accepted Manuscript , DOI: 10.1039/C8CP00619A

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