Soft matter interfaces are ubiquitous across diverse technologies ranging from pharmaceuticals to chemical formulations. The presence of surfactant molecules or colloidal particles at fluid interfaces ...

The behaviour of colloidal particles at fluid interfaces is of critical importance in both natural processes and industrial applications, ranging from emulsion stability to advanced material design.

The study of nanoparticle interactions within colloidal suspensions has advanced considerably, laying the groundwork for both industrial applications and theoretical developments. At the heart of this ...

Stability is one of the main quality characteristics in formulation studies of prospective therapeutic biomolecules. Researchers depend on high-throughput screening techniques to reduce the funds, ...

Proceedings of the National Academy of Sciences of the United States of America, Vol. 117, No. 37 (September 15, 2020), pp. 22690-22697 (8 pages) Targeted drug delivery critically depends on the ...

Applying biological molecules from cell membranes to the surfaces of artificial materials is opening peepholes on the very basics of cell-to-cell interaction. Two recently published papers by a ...

(Nanowerk News) Extrusion-based 3D printing/bioprinting is a promising approach to generating patient-specific, tissue-engineered grafts. However, a major challenge in extrusion-based 3D printing and ...

A new study, “Inter-Species Interactions in Dual, Fibrous Gels Enable Control of Gel Structure and Rheology” published in Proceedings of the National Academy of Sciences (PNAS), uncovers how ...

Plastic deformation of crystalline materials with isotropic particle attractions proceeds by the creation and migration of dislocations under the influence of external forces. If dislocations are ...

Notably, this assembly process occurs spontaneously without chemically modifying the viruses, setting it apart from previous techniques that require laborious genetic alterations or additional ...

The particle dispersions used to make the catalyst layers of water electrolyzers are prone to agglomeration due to the interparticle forces between the catalyst particles. However, the ion conducting ...