Synthesis and Surface Attachment of Molecular Re(I) Complexes Supported by Functionalized Bipyridyl Ligands

Eleven 2,2′-bipyridine (bpy) ligands functionalized with attachment groups for covalent immobilization on silicon surfaces were prepared. Five of the ligands feature silatrane functional groups for attachment to metal oxide coatings on the silicon surfaces, while six contain either alkene or alkyne functional groups for attachment to hydrogen-terminated silicon surfaces. The bpy ligands were coordinated to Re(CO)₅Cl to form complexes of the type Re(bpy)(CO)₃Cl, which are related to known catalysts for CO₂ reduction. Six of the new complexes were characterized using X-ray crystallography. As proof of principle, four molecular Re complexes were immobilized on either a thin layer of TiO₂ on silicon or hydrogen-terminated silicon. The surface-immobilized complexes were characterized using X-ray photoelectron spectroscopy, IR spectroscopy, and cyclic voltammetry (CV) in the dark and for one representative example in the light. The CO stretching frequencies of the attached complexes were similar to those of the pure molecular complexes, but the CVs were less analogous. For two of the complexes, comparison of the electrocatalytic CO₂ reduction performance showed lower CO Faradaic efficiencies for the immobilized complexes than the same complex in solution under similar conditions. In particular, a complex containing a silatrane linked to bpy with an amide linker showed poor catalytic performance and control experiments suggest that amide linkers in conjugation with a redox-active ligand are not stable under highly reducing conditions and alkyl linkers are more stable. A conclusion of this work is that understanding the behavior of molecular Re catalysts attached to semiconducting silicon is more complicated than related complexes, which have previously been immobilized on metallic electrodes.

Jia, X.; Nedzbala, H. S.; Bottum, S. R.; Cahoon, J. F.; Concepcion, J. J.; Donley, C. L.; Gang, A.; Han, Q.; Hazari, N.; Kessinger, M. C.; Lockett, M. R.; Mayer, J. M.; Mercado, B. Q.; Meyer, G. J.; Pearce, A. J.; Rooney, C. L.; Sampaio, R. N.; Shang, B.; Wang, H. Synthesis and Surface Attachment of Molecular Re(I) complexes Supported by Functionalized Bipyridyl Ligands. Inorg. Chem. 2023, 62 (5) 2359-2375 https://doi.org/10.1021/acs.inorgchem.2c04137

Previous
Previous

Characterizing Density and Spatial Distribution of Trap States in Ta₃N₅ Thin Films for Rational Defect Passivation

Next
Next

Quantum Confinement and Decoherence Effect on Excited Electron Transfer at the Semiconductor–Molecule Interface: A First-Principles Dynamics Study