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- Title
Kinetic control over the chiral-selectivity in the formation of organometallic polymers on a Ag(110) surface.
- Authors
Houtsma, R. S. Koen; van Nyendaal, Floris; Stöhr, Meike
- Abstract
Methods to control chiral-selectivity in molecular reactions through external inputs are of importance, both from a fundamental and technological point of view. Here, the self-assembly of prochiral 6,12-dibromochrysene monomers on Ag(110) is studied using scanning tunneling microscopy. Deposition of the monomers on a substrate held at room temperature leads to the formation of 1D achiral organometallic polymers. When the monomers are instead deposited on a substrate held at 373 K, homochiral organometallic polymers consisting of either the left- or right-handed enantiomer are formed. Post-deposition annealing of room temperature deposited samples at >373 K does not transform the achiral 1D organometallic polymers into homochiral ones and thus, does not yield the same final structure as if depositing onto a substrate held at the same elevated temperature. Furthermore, annealing promotes neither the formation of 1D covalently-coupled polymers nor the formation of graphene nanoribbons. Our results identify substrate temperature as an important factor in on-surface chiral synthesis, thereby demonstrating the importance of considering kinetic effects and the decisive role they can play in structure formation. The effective control of chirality on surfaces is crucial for applications such as enantioselective heterogeneous catalysis and nonlinear optics. Here, the authors study the on-surface synthesis of organometallic polymers and their chiral expression on Ag(110), demonstrating that kinetic effects play an important role in determining polymer chirality.
- Subjects
ORGANOMETALLIC polymers; KINETIC control; ENANTIOSELECTIVE catalysis; SCANNING tunneling microscopy; NONLINEAR optics
- Publication
Communications Chemistry, 2024, Vol 7, Issue 1, p1
- ISSN
2399-3669
- Publication type
Article
- DOI
10.1038/s42004-024-01137-y