: Cyano-functionalized perylene diimides provide a platform for engineering orbital-specific electronic transparency at organic-metal interfaces. Here we resolve the adsorption geometry, orbital symmetry, and ultrafast charge-transfer dynamics of PDIF-CN2 on Au(111) using polarization-dependent NEXAFS, XPS, resonant Auger spectroscopy with core-hole-clock analysis, and STM. Molecules in the monolayer lie flat with out-of-molecular plane polarized cyano-derived π* orbitals aligned toward Au(111). Although the overall electronic structure remains largely molecular, the nearly degenerate cyano σ*(π)/π*(π) doublet becomes distinctly split at the interface, enabling symmetry-selective coupling of cyano orbitals. We use Auger spectator shifts to quantify bidirectional charge exchange within the N 1s core-hole lifetime, yielding injection of ∼0.43 e- from Au into the cyano π*(π) orbital and the transfer of ∼0.17 e- in the opposite direction. These findings establish cyano end groups as symmetry-selective gateways for femtosecond charge transfer at molecule-metal interfaces.
Symmetry-Selective Ultrafast Charge Transfer via Cyano End Groups at the PDIF-CN 2 –Au(111) Interface / Kladnik, Gregor; Cassinese, Antonio; Schio, Luca; Goldoni, Andrea; Morgante, Alberto; Floreano, Luca; Cvetko, Dean. - In: NANO LETTERS. - ISSN 1530-6984. - (2026). [10.1021/acs.nanolett.6c01061]
Symmetry-Selective Ultrafast Charge Transfer via Cyano End Groups at the PDIF-CN 2 –Au(111) Interface
Cassinese, Antonio;
2026
Abstract
: Cyano-functionalized perylene diimides provide a platform for engineering orbital-specific electronic transparency at organic-metal interfaces. Here we resolve the adsorption geometry, orbital symmetry, and ultrafast charge-transfer dynamics of PDIF-CN2 on Au(111) using polarization-dependent NEXAFS, XPS, resonant Auger spectroscopy with core-hole-clock analysis, and STM. Molecules in the monolayer lie flat with out-of-molecular plane polarized cyano-derived π* orbitals aligned toward Au(111). Although the overall electronic structure remains largely molecular, the nearly degenerate cyano σ*(π)/π*(π) doublet becomes distinctly split at the interface, enabling symmetry-selective coupling of cyano orbitals. We use Auger spectator shifts to quantify bidirectional charge exchange within the N 1s core-hole lifetime, yielding injection of ∼0.43 e- from Au into the cyano π*(π) orbital and the transfer of ∼0.17 e- in the opposite direction. These findings establish cyano end groups as symmetry-selective gateways for femtosecond charge transfer at molecule-metal interfaces.| File | Dimensione | Formato | |
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