Atomically Resolved Band Bending Effects in a p-n Heterojunction of Cu2O and a Cobalt Macrocycle

We present a hetero junction based on macrocyclic hydrogen evolution catalysts (HEC) physisorbed on a single crystalline Cu2O(111) surface. Angle-resolved X-ray photoelectron spectroscopy (ARXPS) provides the spatial resolution of the band bending within the first nanometer of the subsurface region...

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Veröffentlicht in:	Nano letters 2017-11, Vol.17 (11), p.6620-6625
Hauptverfasser:	Leuenberger, Dominik, Zabka, Wolf-D, Shah, Oliver-F. R, Schnidrig, Stephan, Probst, Benjamin, Alberto, Roger, Osterwalder, Jürg
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creator	Leuenberger, Dominik Zabka, Wolf-D Shah, Oliver-F. R Schnidrig, Stephan Probst, Benjamin Alberto, Roger Osterwalder, Jürg
description	We present a hetero junction based on macrocyclic hydrogen evolution catalysts (HEC) physisorbed on a single crystalline Cu2O(111) surface. Angle-resolved X-ray photoelectron spectroscopy (ARXPS) provides the spatial resolution of the band bending within the first nanometer of the subsurface region. Oxygen vacancies on the Cu2O(111) surface cause a downward band bending which is conserved upon adsorption of HEC layers of various thicknesses. This allows photoexcited electrons to be directed toward the surface where they can be made available for the reduction of protons by the HEC. Furthermore, Poisson’s equation relates more subtle changes in the measured ARXPS spectra to the local charge density profile within the first 7 Å away from the surface and with atomic resolution. All observations are consistent with a polarization of the molecular layer in response to the electrical field at the oxide surface, which should be a general phenomenon at such organic-oxide heterointerfaces.
doi_str_mv	10.1021/acs.nanolett.7b02486
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Furthermore, Poisson’s equation relates more subtle changes in the measured ARXPS spectra to the local charge density profile within the first 7 Å away from the surface and with atomic resolution. 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title	Atomically Resolved Band Bending Effects in a p-n Heterojunction of Cu2O and a Cobalt Macrocycle
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