Industrialized societies rely heavily on advanced materials such as optical fibers, lightweight composites, and silicon microchips for use in a wide range of applications – however, a crucial aspect ...

Using a non-traditional, micro-organism separation method, researchers at Rochester Institute of Technology discovered a faster technique that can be used to distinguish cells that are resistant to ...

In this interview conducted at Pittcon 2023 in Philadelphia, Pennsylvania, we spoke to this year's recipient of the Satinder Ahuja Award for Young Investigations in Separation Science, Emanuela ...

Lithium isotope separation has emerged as a critical field in addressing both industrial and environmental challenges, particularly in the nuclear and energy sectors. Traditional methods—for instance, ...

Jennifer Kingston was awarded the Royal Society of Chemistry's Technical Excellence Prize, which honours the vital role of ...

Separation science is a multidisciplinary field dedicated to isolating, identifying and quantifying individual components from complex mixtures. It underpins progress in biotechnology, environmental ...

There are, however, several major differences between magnetic bead technologies and other conventional biotech techniques that can pose some challenges for new users. Even though many stages of ...

(Nanowerk Spotlight) As high-tech industries continue to expand, the demand for rare earth elements – essential for everything from smartphones to electric vehicles – has skyrocketed, making the ...

Magnetic bead separation is widely used in the life sciences field. From cell sorting to molecular diagnostics, this technology can be used with a wide range of volumes, from a few nanoliters in ...

This event is now apart of the Laboratory Automation Virtual Event Series. Welcome to the 4th Annual Event in the Analytical Chemistry and Separation Sciences Virtual Event Series. This premier ...