Effects of Photodeposited Gold vs Platinum Nanoparticles on N,F-Doped TiO2 Photoactivity: A Time-Resolved Photoluminescence Investigation
The time-resolved photoluminescence (PL) in the nanosecond time scale of TiO2 materials undoped or codoped with nitrogen and fluorine (N,F-doping) and modified by noble metals (NM, i.e. Au or Pt) nanoparticles (NPs) photodeposition has been systematically investigated in relation to their photocatal...
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| Published in | Journal of physical chemistry. C Vol. 122; no. 26; pp. 14326 - 14335 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
05.07.2018
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1932-7447 1932-7455 1932-7455 |
| DOI | 10.1021/acs.jpcc.8b02997 |
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| Abstract | The time-resolved photoluminescence (PL) in the nanosecond time scale of TiO2 materials undoped or codoped with nitrogen and fluorine (N,F-doping) and modified by noble metals (NM, i.e. Au or Pt) nanoparticles (NPs) photodeposition has been systematically investigated in relation to their photocatalytic activity in hydrogen production. The main aim of the study is to elucidate the origin of the NM-dependent synergistic effects in photoactivity produced by N,F-doping of TiO2 and NM NPs deposition on the oxide surface. While TiO2 doping with fluorine and nitrogen introduces new stabilized luminescent defective trap states below the conduction band revealed by long-living PL components, the presence of NM NPs on the TiO2 surface produces a PL intensity suppression, which is more relevant for Au- rather than for Pt-NPs containing materials. Time-resolved PL analysis indicates that the electron transfer occurring at the TiO2/metal interface is affected by both the defective structure of anatase N,F-doped TiO2 and the type of NM (Au or Pt). In particular, Au rather than Pt NPs appear to strongly interact with the charge carriers trapped at surface defect sites, gold NPs being expected to preferentially grow on such sites during photodeposition. Furthermore, plasmonic gold NPs excitation upon PL light absorption is evidenced by the PL spectral shape variation observed only in the case of Au/TiO2. Thus, the larger synergistic effect on photocatalytic hydrogen production observed upon Au NPs photodeposition on N,F-doped TiO2 results from the opening of a new efficient electron transfer path from luminescent defective trap states on doped TiO2 to Au NPs, where proton reduction occurs. |
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| AbstractList | The time-resolved photoluminescence (PL) in the nanosecond time scale of TiO2 materials undoped or codoped with nitrogen and fluorine (N,F-doping) and modified by noble metals (NM, i.e. Au or Pt) nanoparticles (NPs) photodeposition has been systematically investigated in relation to their photocatalytic activity in hydrogen production. The main aim of the study is to elucidate the origin of the NM-dependent synergistic effects in photoactivity produced by N,F-doping of TiO2 and NM NPs deposition on the oxide surface. While TiO2 doping with fluorine and nitrogen introduces new stabilized luminescent defective trap states below the conduction band revealed by long-living PL components, the presence of NM NPs on the TiO2 surface produces a PL intensity suppression, which is more relevant for Au- rather than for Pt-NPs containing materials. Time-resolved PL analysis indicates that the electron transfer occurring at the TiO2/metal interface is affected by both the defective structure of anatase N,F-doped TiO2 and the type of NM (Au or Pt). In particular, Au rather than Pt NPs appear to strongly interact with the charge carriers trapped at surface defect sites, gold NPs being expected to preferentially grow on such sites during photodeposition. Furthermore, plasmonic gold NPs excitation upon PL light absorption is evidenced by the PL spectral shape variation observed only in the case of Au/TiO2. Thus, the larger synergistic effect on photocatalytic hydrogen production observed upon Au NPs photodeposition on N,F-doped TiO2 results from the opening of a new efficient electron transfer path from luminescent defective trap states on doped TiO2 to Au NPs, where proton reduction occurs. The time-resolved photoluminescence (PL) in the nanosecond time scale of TiO₂ materials undoped or codoped with nitrogen and fluorine (N,F-doping) and modified by noble metals (NM, i.e. Au or Pt) nanoparticles (NPs) photodeposition has been systematically investigated in relation to their photocatalytic activity in hydrogen production. The main aim of the study is to elucidate the origin of the NM-dependent synergistic effects in photoactivity produced by N,F-doping of TiO₂ and NM NPs deposition on the oxide surface. While TiO₂ doping with fluorine and nitrogen introduces new stabilized luminescent defective trap states below the conduction band revealed by long-living PL components, the presence of NM NPs on the TiO₂ surface produces a PL intensity suppression, which is more relevant for Au- rather than for Pt-NPs containing materials. Time-resolved PL analysis indicates that the electron transfer occurring at the TiO₂/metal interface is affected by both the defective structure of anatase N,F-doped TiO₂ and the type of NM (Au or Pt). In particular, Au rather than Pt NPs appear to strongly interact with the charge carriers trapped at surface defect sites, gold NPs being expected to preferentially grow on such sites during photodeposition. Furthermore, plasmonic gold NPs excitation upon PL light absorption is evidenced by the PL spectral shape variation observed only in the case of Au/TiO₂. Thus, the larger synergistic effect on photocatalytic hydrogen production observed upon Au NPs photodeposition on N,F-doped TiO₂ results from the opening of a new efficient electron transfer path from luminescent defective trap states on doped TiO₂ to Au NPs, where proton reduction occurs. |
| Author | Candeo, Alessia Dozzi, Maria Vittoria Valentini, Gianluca D’Andrea, Cosimo Selli, Elena Marra, Gianluigi |
| AuthorAffiliation | Consiglio Nazionale delle Ricerche Dipartimento di Fisica Dipartimento di Chimica Istituto Italiano di Tecnologia Politecnico di Milano Center for Nano Science and Technology@PoliMi Università degli Studi di Milano Renewable Energy and Environmental R&D Istituto Eni Donegani Istituto di Fotonica e Nanotecnologie |
| AuthorAffiliation_xml | – name: Istituto Italiano di Tecnologia – name: Istituto di Fotonica e Nanotecnologie – name: Dipartimento di Chimica – name: Università degli Studi di Milano – name: Dipartimento di Fisica – name: Center for Nano Science and Technology@PoliMi – name: Istituto Eni Donegani – name: Politecnico di Milano – name: Consiglio Nazionale delle Ricerche – name: Renewable Energy and Environmental R&D |
| Author_xml | – sequence: 1 givenname: Maria Vittoria orcidid: 0000-0002-6390-9348 surname: Dozzi fullname: Dozzi, Maria Vittoria email: mariavittoria.dozzi@unimi.it organization: Università degli Studi di Milano – sequence: 2 givenname: Alessia surname: Candeo fullname: Candeo, Alessia organization: Politecnico di Milano – sequence: 3 givenname: Gianluigi surname: Marra fullname: Marra, Gianluigi organization: Istituto Eni Donegani – sequence: 4 givenname: Cosimo surname: D’Andrea fullname: D’Andrea, Cosimo organization: Istituto Italiano di Tecnologia – sequence: 5 givenname: Gianluca surname: Valentini fullname: Valentini, Gianluca organization: Consiglio Nazionale delle Ricerche – sequence: 6 givenname: Elena orcidid: 0000-0001-8391-7639 surname: Selli fullname: Selli, Elena organization: Università degli Studi di Milano |
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| SubjectTerms | absorption electron transfer fluorine gold hydrogen production nanogold nanoparticles nitrogen photocatalysis photoluminescence platinum synergism titanium dioxide |
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| Title | Effects of Photodeposited Gold vs Platinum Nanoparticles on N,F-Doped TiO2 Photoactivity: A Time-Resolved Photoluminescence Investigation |
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