Themed collection Recognition and Reactivity at Interfaces

Showcasing a collection of cutting edge contributions on the topic of Recognition and Reactivity at Interfaces.

Hydroxamate ions as α-nucleophiles for esterolytic reactions in water and micelles.

Saponins, amphiphiles of natural origin with numerous biological activities, are widely used in research, the cosmetic and pharmaceutical industry.

A non-emulsion soft template method based on a miscible tetrahydrofuran–tris buffer mixture has been used to fabricate polydopamine nanocapsules.

We report that, with the increasing length, cell-penetrating poly(disulfide)s preferably accumulate in the endosomes, cytosol and then the nucleoli.

Both the reactivity of the linker and the dynamics of the interface controlled the anchoring reaction rates of porphyrin onto a silicate surface.

Dimeric cationic tocopheryl lipids for efficacious therapeutic pDNA delivery in cancer cell lines.

In this work the application of Hansen solubility parameters in the study of caffeine encapsulation in metal organic frameworks (MOFs) has been initiated.

Computer simulations show that solvation effects at the air–water interface significantly influence the chemistry of aldehydes, enhancing for instance the benzaldehyde photolysis rate constant by one order of magnitude.

Multiple recognition by cooperative/competitive mechanisms to form a 1 : 1 : 1 inclusion complex plays a crucial role in determining the chemical reactivity in the γ-CD cavity.

Aggregation of prolinamide surfactants in nonpolar solvents enhanced their catalytic activity and gave unusual substrate selectivity in aldol condensations.

Caffeic acid and α-tocopherol (vitamin E) incorporate spontaneously into the interfacial regions of emulsions and their transfer processes are entropy driven.

Bioorthogonal ligation methods are the focus of current research due to their versatile applications in biotechnology and materials science for post-functionalization and immobilization of biomolecules.