Ultrafast Electron Dynamics of Plasmonic Light Harvesting Studied by Femtosecond Time-Resolved X-ray Photoelectron Spectroscopy

Oral-In-person

Abstract

Heterogeneous light harvesting systems consisting of metal nanoparticles interfaced with wide bandgap transition metal semiconductors are among the most intensely studied next generation photocatalytic platforms. Yet, it remains challenging to disentangle the fundamental electronic dynamics and mechanisms that drive the desired photocatalytic activity. To address this challenge, we translate the atomic-scale sensitivity of X-ray photoemission spectroscopy (XPS) to interfacial electronic and chemical configurations into the ultrafast time-domain. Using femtosecond time-resolved XPS (TRXPS) at the WESPE endstation of the FLASH Free Electron Laser in Hamburg, we study photoinduced charge transfer dynamics in gold nanoparticle sensitized TiO2. The measurements provide interfacial site-specific real-time information of the charge buildup during the first ~ps and recombination dynamics on much longer timescales. We will discuss an empirical model capturing the multi-scale interfacial charge dynamics and complementary efforts to gain a deeper understanding of the underlying physics through high-level ab initio electron dynamics calculations.

Presenters

  • Oliver Gessner

    • Lawrence Berkeley National Laboratory

Authors

  • Oliver Gessner

    • Lawrence Berkeley National Laboratory
  • Zachery Donnellan

    • Lawrence Berkeley National Laboratory
  • Carlos Mora Perez

  • Kin Fung Lai

  • Marieke Stapf

  • Dmitrii Potorochin

  • Yvonne Joseph

  • Lukas Wenthaus

  • Wolfgang Eberhardt

  • Serguei Molodtsov

  • Friedrich Roth

  • Jin Qian