Add to ORKG*S Supporting Information ABSTRACT: Understanding interfacial charge-transfer processes on the atomic level is crucial to support the rational design of energy-challenge relevant systems such as solar cells, batteries, and photocatalysts. A femtosecond time-resolved core-level photoelectron spectros-copy study is performed that probes the electronic structure of the interface betwee
Electron injection from a photoexcited molecular sensitizer into a wide-bandgap semiconductor is the...
Charge carrier dynamics at interfaces is of fundamental interest for a broad range of applications ...
Core-hole clock spectroscopy and near-edge x-ray-absorption fine structure measurements have been us...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Photoinduced electron transfer (PET) across molecular/bulk interfaces has gained attention only rece...
Charge transfer processes across hybrid interfaces, such as formed by the connection of molecules to...
Understanding electron transfer across two-dimensional (2D) van der Waals (vdW) interfaces especiall...
We study the unoccupied electronic structure and dynamics of chemisorbed atoms and molecules on meta...
The development of efficient organic electronic devices depends substantially on the electronic coup...
Electron injection from a photoexcited molecular sensitizer into a wide-bandgap semiconductor is the...
Charge carrier dynamics at interfaces is of fundamental interest for a broad range of applications ...
Core-hole clock spectroscopy and near-edge x-ray-absorption fine structure measurements have been us...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Understanding interfacial charge-transfer processes on the atomic level is crucial to support the ra...
Photoinduced electron transfer (PET) across molecular/bulk interfaces has gained attention only rece...
Charge transfer processes across hybrid interfaces, such as formed by the connection of molecules to...
Understanding electron transfer across two-dimensional (2D) van der Waals (vdW) interfaces especiall...
We study the unoccupied electronic structure and dynamics of chemisorbed atoms and molecules on meta...
The development of efficient organic electronic devices depends substantially on the electronic coup...
Electron injection from a photoexcited molecular sensitizer into a wide-bandgap semiconductor is the...
Charge carrier dynamics at interfaces is of fundamental interest for a broad range of applications ...
Core-hole clock spectroscopy and near-edge x-ray-absorption fine structure measurements have been us...