Femtosecond M2,3-Edge Spectroscopy of Transition-Metal Oxides: Photoinduced Oxidation State Change in α-Fe2O3

Josh Vura‐Weis; Chang-Ming Jiang; Chong Liu; Hanwei Gao; J. Matthew Lucas; Frank M. F. de Groot; Peidong Yang; Paul Alivisatos; Stephen R. Leone

doi:10.1021/jz401997d

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Femtosecond M2,3-Edge Spectroscopy of Transition-Metal Oxides: Photoinduced Oxidation State Change in α-Fe2O3

Article 2013 en

Authors

JV
Josh Vura‐Weis
CJ
Chang-Ming Jiang
CL
Chong Liu

Abstract

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Oxidation-state-specific dynamics at the Fe M-2,M-3-edge are measured on the sub-100 fs time scale using tabletop high-harmonic extreme ultraviolet spectroscopy. Transient absorption spectroscopy of alpha-Fe2O3 thin films after 400 nm excitation reveals distinct changes in the shape and position of the 3p -> valence absorption peak at similar to 57 eV due to a ligand-to-metal charge transfer from 0 to Fe. Semiempirical ligand field multiplet calculations of the spectra of the initial Fe3+ and photoinduced Fe2+ state confirm this assignment and exclude the alternative d-d excitation. The Fe2+ state decays to a long-lived trap state in 240 fs. This work establishes the ability of time-resolved extreme ultraviolet spectroscopy to measure ultrafast charge-transfer processes in condensed-phase systems.

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