AI Article Synopsis
- Controlling the growth of supramolecular materials at solid surfaces is crucial for enhancing their potential applications.
- A specific dendritic benzene-1,3,5-tricarboxamide peptide conjugate can assemble in response to pH changes, and its growth behavior was studied using stopped-flow kinetics and mathematical models.
- The research demonstrates a method for surface-assisted self-assembly by utilizing slow proton diffusion, allowing for the gradual formation of hydrogels from the surface, which can be applied to other gelators for creating structured supramolecular materials.
Article Abstract
Controlling supramolecular growth at solid surfaces is of great importance to expand the scope of supramolecular materials. A dendritic benzene-1,3,5-tricarboxamide peptide conjugate is described in which assembly can be triggered by a pH jump. Stopped-flow kinetics and mathematical modeling provide a quantitative understanding of the nucleation, elongation, and fragmentation behavior in solution. To assemble the molecule at a solid-liquid interface, we use proton diffusion from the bulk. The latter needs to be slower than the lag phase of nucleation to progressively grow a hydrogel outwards from the surface. Our method of surface-assisted self-assembly is generally applicable to other gelators, and can be used to create structured supramolecular materials.
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| http://dx.doi.org/10.1002/anie.201806668 | DOI Listing |
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