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- Title
Cis-dicarbonyl binding at cobalt and iron porphyrins with saddle-shape conformation.
- Authors
Seufert, Knud; Bocquet, Marie-Laure; Auwärter, Willi; Weber-Bargioni, Alexander; Reichert, Joachim; Lorente, Nicolás; Barth, Johannes V.
- Abstract
Diatomic molecules attached to complexed iron or cobalt centres are important in many biological processes. In natural systems, metallotetrapyrrole units carry respiratory gases or provide sensing and catalytic functions. Conceiving synthetic model systems strongly helps to determine the pertinent chemical foundations for such processes, with recent work highlighting the importance of the prosthetic groups' conformational flexibility as an intricate variable affecting their functional properties. Here, we present simple model systems to investigate, at the single molecule level, the interaction of carbon monoxide with saddle-shaped iron- and cobalt-porphyrin conformers, which have been stabilized as two-dimensional arrays on well-defined surfaces. Using scanning tunnelling microscopy we identified a novel bonding scheme expressed in tilted monocarbonyl and cis-dicarbonyl configurations at the functional metal-macrocycle unit. Modelling with density functional theory revealed that the weakly bonded diatomic carbonyl adduct can effectively bridge specific pyrrole groups with the metal atom as a result of the pronounced saddle-shape conformation of the porphyrin cage.
- Subjects
CARBONYL compounds; PORPHYRINS; METAL bonding; COBALT; IRON; PHYSIOLOGICAL effects of metals; CONFORMATIONAL analysis; CARBON monoxide molecular rotation; SCANNING tunneling microscopy
- Publication
Nature Chemistry, 2011, Vol 3, Issue 2, p114
- ISSN
1755-4330
- Publication type
Article
- DOI
10.1038/nchem.956