A team of researchers succeeded in adapting an AI system to reliably assist with making nanoparticle measurements which speeds up the research process significantly.

Colloidal nanoparticles are particles that operate at the nanoscale, specifically between 1 to 1000 nanometers, suspended in a fluid. These nanoparticles can consist of various materials, such as ...

Nanoparticle researchers spend most of their time on one thing: counting and measuring nanoparticles. Each step of the way, they have to check their ...

resulting in nanoparticles with a consistent morphology that are well dispersed in a liquid medium to form a colloidal solution. What sets Murata’s nanoparticles apart is that they are resistant ...

Nanoparticle interactions in colloidal suspensions are a critical area of research due to their applications in various fields, including materials science, pharmaceuticals, and environmental ...

Titania nanoparticles damage enveloped viruses by directly binding with membrane phospholipids – a previously unknown mode of antiviral action ...

and carbon nanoparticles. We often study these systems away from equilibrium, for instance in response to an external electric field. More recently, we moved towards non-equilibrium active colloidal ...

Zeta potential is a key indicator of the stability of colloidal dispersions and nanoparticle suspensions. It measures the electrical potential difference between the bulk of the liquid and the ...

The BeNano 90 Zeta is the latest generation of nanoparticle size and zeta potential analyzer designed by Bettersize ... Now with The BAT-1 Autotitrator, for analyzing the zeta potential as a function ...

Consider, for example, how the bright colors of gold nanoparticles differ from the shiny yellow of a gold ring or how the strength and conductivity of carbon nanotubes differs from brittle diamonds.