Solvent-Induced Transient Self-Assembly of Peptide Gels : Gelator–Solvent Reactions and Material Properties Correlation
Chevigny, R., Rahkola, H., Sitsanidis, E. D., Korhonen, E., Hiscock, J. R., Pettersson, M., & Nissinen, M. (2024). Solvent-Induced Transient Self-Assembly of Peptide Gels : Gelator–Solvent Reactions and Material Properties Correlation. Chemistry of Materials, 36(1), 407-416. https://doi.org/10.1021/acs.chemmater.3c02327
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Chemistry of MaterialsAuthors
Date
2024Discipline
Nanoscience CenterFysikaalinen kemiaOrgaaninen kemiaNanoscience CenterPhysical ChemistryOrganic ChemistryCopyright
©The Authors. Published by American Chemical Society
Herein, we introduce a new methodology for designing transient organogels that offers tunability of the mechanical properties simply by matching the protective groups of the precursor to that of the solvent. We developed solvent-induced transient materials in which the solvent chemically participates in a set of reactions and actively supports the assembly event. The activation of a single precursor by an acid (accelerator) yields the formation of two distinct gelators and induces gelation. The interconversion cycle is supplied by the secondary solvent (originating from hydrolysis of the primary solvent by the accelerator), which then progressively solubilizes the gel network. We show that this gelation method offers a direct correlation between the mechanical and transient properties by modifying the chemical structure of the precursors and the presence of an accelerator in the system. Such a method paves the way for the design of self-abolishing and mechanically tunable materials for targeted purposes. The biocompatibility and versatility of amino acid-based gelators can offer a wide range of biomaterials for applications requiring a controllable and definite lifetime such as drug delivery platforms exhibiting a burst release or self-abolishing cell culture substrates.
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The authors acknowledge the Jane and Aatos Erkko Foundation for supporting the current work. J.R.H. thanks the UKRI Future Leaders Fellowship for funding (MR/T020415/1).License
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