Wednesday, December 20, 2023

 NEW AGE ALCHEMY

Chemistry and Crystals: Politecnico di Milano's hydrogel study on the cover of Chemistry


Research opens up new perspectives for therapy and cosmetics


Peer-Reviewed Publication

POLITECNICO DI MILANO

The supramolecular interaction between the amino acid Fmoc-pentafluoro-phenylalanine and the partner molecule led to the formation of a crystal complex in the solid state 

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THE SUPRAMOLECULAR INTERACTION BETWEEN THE AMINO ACID FMOC-PENTAFLUORO-PHENYLALANINE AND THE PARTNER MOLECULE LED TO THE FORMATION OF A CRYSTAL COMPLEX IN THE SOLID STATE. IN WATER, THE TWO MOLECULES GAVE HYDROGELS, WHOSE FIBRILLAR NETWORK IS HELD TOGETHER BY THE SAME SUPRAMOLECULAR INTERACTIONS OBSERVED IN CRYSTALS.

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CREDIT: POLITECNICO DI MILANO




Milan, 19 December 2023 -  Hydrogels, ubiquitous materials in our daily lives, are the focus of a scientific research published as a hot paper on the cover of the renowned international journal Chemistry - A European Journal. Conducted by the SupraBioNanoLab at the Department of Chemistry, Materials and Chemical Engineering 'Giulio Natta’ at Politecnico di Milano, the work demonstrated how the combination of supramolecular chemistry and crystallography can be used to design hydrogels with specific characteristics.

The study focused on the use of an amino acid called Fmoc-pentafluoro-phenylalanine, which effectively turns into a gel in water. The researchers examined the behaviour of this molecule in the presence of other substances, including bioactive molecules such as vitamin B3, which establish strong attractive interactions with its reactive groups. Experimental results have shown that the interactions between the amino acid and partner molecules are identical both in the formation of a crystalline complex in the solid state and in the creation of a gel in an aqueous solvent.

The key to the research was the determination of the crystal structure of the complex through X-ray diffraction, which allowed us to predict the properties and consistency of the resulting gel.’ - explains Valentina Dichiarante of the Department of Chemistry, Materials and Chemical Engineering 'Giulio Natta’ at Politecnico di Milano. ‘This also allowed us to modulate the release of the partner molecule from the gel itself'.

'This scientific breakthrough opens up new perspectives for the selective and targeted design of mixed hydrogels’, adds Pierangelo Metrangolo of the Department of Chemistry, Materials and Chemical Engineering 'Giulio Natta' at Politecnico di Milano. 'The supramolecular interactions between the solid-phase components allow the strength and structure of the gel to be modulated, creating an ideal matrix for the controlled release of active substances, with possible therapeutic or cosmetic applications’.

The exceptional importance of these results led the journal Chemistry - A European Journal to dedicate the main cover of the edition containing the article to it, together with a detailed profile on the authors of the work and their research activity. This award underlines the significant contribution this research brings to the emerging field of hydrogels and biomedical applications.

 

Link to the study: https://doi.org/10.1002/chem.202301743

‘Acid···Amide Supramolecular Synthon for Tuning Amino Acid-Based Hydrogels’ Properties’

Eleonora Veronese, Claudia Pigliacelli, Greta Bergamaschi, Giancarlo Terraneo, Valentina Dichiarante* and Pierangelo Metrangolo*

Chemistry - A European Journal 2023, e202301743


Images from two different electron microscopy analyses of Fmoc-pentafluoro-phenylalanine hydrogel alone (c-d) and with a partner molecule (e-f). Inset: photos of the two hydrogels

CREDIT

Politecnico di Milano

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