Concentration‐, Temperature‐ and Solvent‐Dependent Self‐Assembly: Merocyanine Dimerization as a Showcase Example for Obtaining Reliable Thermodynamic Data

Vonhausen, Yvonne; Würthner, Frank

doi:10.1002/chem.202300359

Cited by 11 publications

(1 citation statement)

References 77 publications

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“…As a result, the formation of larger stacks is impeded. 37–41 These works based on specialized molecular design for incorporation of hydrogen bonding synthons and dipole moments are out of the scope of this article. This article puts emphasis on the importance of achieving a balance between attractive (π–π stacking) and repulsive (steric hindrance) interactions in self-assembly.…”

Section: Directing Precise Control Over π-Stackingmentioning

confidence: 99%

Frustrated π-stacking

Zhang,

Wei,

Lin

2024

Chem. Commun.

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Section: Directing Precise Control Over π-Stackingmentioning

confidence: 99%

Frustrated π-stacking

Zhang,

Wei,

Lin

2024

Chem. Commun.

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Shape‐Assisted Self‐Assembly of Hexa‐Substituted Carpyridines into 1D Supramolecular Polymers

Gallego,

Woods,

Butti

et al. 2024

Angewandte Chemie

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The extent of the influence that molecular curvature plays on the self‐assembly of supramolecular polymers remains an open question in the field. We began addressing this fundamental question with the introduction of “carpyridines”, which are saddle‐shaped monomers that can associate with one another through π‐π interactions and in which the rotational and translational movements are restricted. The topography displayed by the monomers led, previously, to the assembly of highly ordered 2D materials even in the absence of strong directional interactions such as hydrogen bonding. Here, we introduce a simple strategy to gain control over the dimensionality of the formed structures yielding classical unidimensional polymers. These have been characterized using well‐established protocols allowing us to determine and confirm the self‐assembly mechanism of both fibers and sheets. The calculated interaction energies are significantly higher than expected for flexible self‐assembling units lacking classical “strong” non‐covalent interactions. The versatility of this supramolecular unit to assemble into either supramolecular fibers or 2D sheets with strong association energies highlights remarkably well the potential and importance of molecular shape for the design of supramolecular materials and the applications thereof.

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Bayesian Inference for Model Analyses of Supramolecular Complexes: A Case Study with Nanocarbon Hosts

Onaka,

Sakai,

Fukunaga

et al. 2024

Angewandte Chemie

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A 126π‐electron nanobowl molecule, phenine tridehydrosumanene, was synthesized in 12 steps through the development of a polygon cyclization strategy that assembled the polygonal precursors via Ni‐mediated macrocyclization. The bowl‐shaped structure accommodated C70 as a guest at the concave site, and the ball‐in‐bowl structure was determined by X‐ray crystallography. The host‐guest equilibrium in solution was studied with titration experiments using isothermal calorimetry, which provided an interesting test case for studying the host‐guest stoichiometry. Bayesian inference was introduced for stoichiometric analyses of the equilibrium, and a protocol to estimate the volume of prior probability in the parameter space was developed. The Bayesian protocol functioned as Occam's razor and provided quantitative support for a specific stoichiometry. The method was examined with five host‐guest examples comprising nanocarbon hosts, which suggested the versatility of Bayesian inference for studies of supramolecular complexes.

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Concentration‐, Temperature‐ and Solvent‐Dependent Self‐Assembly: Merocyanine Dimerization as a Showcase Example for Obtaining Reliable Thermodynamic Data

Cited by 11 publications

References 77 publications

Frustrated π-stacking

Frustrated π-stacking

Shape‐Assisted Self‐Assembly of Hexa‐Substituted Carpyridines into 1D Supramolecular Polymers

Bayesian Inference for Model Analyses of Supramolecular Complexes: A Case Study with Nanocarbon Hosts

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