Photocatalytic conversion of CO2 to hydrocarbon fuels via plasmon-enhanced absorption and metallic interband transitions

Wenbo Hou, Wei Hsuan Hung, Prathamesh Pavaskar, Alain Goeppert, Mehmet Aykol, Stephen B. Cronin

Research output: Contribution to journalArticlepeer-review

521 Scopus citations

Abstract

A systematic study of the mechanisms of Au nanoparticle/TiO 2-catalyzed photoreduction of CO2 and water vapor is carried out over a wide range of wavelengths. When the photon energy matches the plasmon resonance of the Au nanoparticles (free carrier absorption), which is in the visible range (532 nm), we observe a 24-fold enhancement in the photocatalytic activity because of the intense local electromagnetic fields created by the surface plasmons of the Au nanoparticles. These intense electromagnetic fields enhance sub-bandgap absorption in the TiO2, thereby enhancing the photocatalytic activity in the visible range. When the photon energy is high enough to excite d band electronic transitions in the Au, in the UV range (254 nm), a different mechanism occurs resulting in the production of additional reaction products, including C2H 6, CH3OH, and HCHO. This occurs because the energy of the d band excited electrons lies above the redox potentials of the additional reaction products CO2/C2H6, CO 2/CH3OH, and CO2/HCHO. We model the plasmon excitation at the Au nanoparticle-TiO2 interface using finite difference time domain (FDTD) simulations, which provides a rigorous analysis of the electric fields and charge at the Au nanoparticle-TiO2 interface.

Original languageEnglish
Pages (from-to)929-936
Number of pages8
JournalACS Catalysis
Volume1
Issue number8
DOIs
StatePublished - 5 Aug 2011

Keywords

  • CO2
  • Photocatalytic
  • hydrocarbon fuels
  • interband transition
  • photocatalysis
  • plasmon
  • plasmonic

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