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Abstract
Corannulene is known to undergo a fast bowl-to-bowl inversion at r.t. via a planar transition structure (TS). Herein we present the catalysis of this process within a perylene bisimide (PBI) cyclophane composed of chirally twisted, non-planar chromophores, linked by para-xylylene spacers. Variable temperature NMR studies reveal that the bowl-to-bowl inversion is significantly accelerated within the cyclophane template despite the structural non-complementarity between the binding site of the host and the TS of the guest. The observed acceleration corresponds to a decrease in the bowl-to-bowl inversion barrier of 11.6 kJ mol−1 compared to the uncatalyzed process. Comparative binding studies for corannulene (20 π-electrons) and other planar polycyclic aromatic hydrocarbons (PAHs) with 14 to 24 π-electrons were applied to rationalize this barrier reduction. They revealed high binding constants that reach, in tetrachloromethane as a solvent, the picomolar range for the largest guest coronene. Computational models corroborate these experimental results and suggest that both TS stabilization and ground state destabilization contribute to the observed catalytic effect. Hereby, we find a “mutual induced fit” between host and guest in the TS complex, such that mutual geometric adaptation of the energetically favored planar TS and curved π-systems of the host results in an unprecedented non-planar TS of corannulene. Concomitant partial planarization of the PBI units optimizes noncovalent TS stabilization by π-π stacking interactions. This observation of a “mutual induced fit” in the TS of a host-guest complex was further validated experimentally by single crystal X-ray analysis of a host-guest complex with coronene as a qualitative transition state analogue.
Original language | English |
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Pages (from-to) | 609-617 |
Number of pages | 9 |
Journal | Chemical Science |
Volume | 15 |
Issue number | 2 |
Early online date | 27 Nov 2023 |
DOIs | |
Publication status | Published - 14 Jan 2024 |
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Mutual Induced Fit Transition Structure Stabilization of Corannulene's Bowl-to-Bowl Inversion in a Perylene Bisimide Cyclophane
Weh, M. (Creator), Kroeger, A. A. (Creator), Anhalt, O. (Creator), Karton, A. (Creator) & Würthner, F. (Creator), Zenodo, 19 Dec 2023
DOI: 10.5281/zenodo.10184971, https://zenodo.org10184971
Dataset
Projects
- 1 Finished
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High-level quantum chemistry: From theory to applications
Karton, A. (Investigator 01)
ARC Australian Research Council
27/12/17 → 28/02/22
Project: Research