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.

Hydration energetics may become a central tool in engineering safer, longer-circulating, and more effective nanoparticle therapies.

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 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 ...

Researchers at NYU have developed a way to use light to precisely direct how microscopic particles assemble into crystals.

Emily studies the thermodynamics of DNA interactions for use in mediating colloidal interactions. She is interested in designing DNA sequences to allow for precise control of the binding strength and ...

NYU scientists are using light to precisely control how tiny particles organize themselves into crystals. Their research, published in Chem, provides a simple and reversible method for forming ...

DNA is a fascinating macromolecule that guides protein production and enables cell replication. It has also found applications in nanoscience and materials design. Colloidal crystals are ordered ...

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