Researchers developed a microfluidic method that combines electric-field-driven flow and viscoelastic forces to improve ...

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 ...

Thought LeadersDaniel W. Armstrong Professor, Chemistry & BiochemistryThe University of Texas at Arlington An interview with Daniel Armstrong from The University of Texas at Arlington about the ...

Combining the adsorption properties of solids with the dissolution capabilities of liquids, researchers have created a versatile and efficient material for improving oxygen separation in gases. In ...

Suggested Citation: "1 Introduction." National Academies of Sciences, Engineering, and Medicine. 2019. A Research Agenda for Transforming Separation Science. Washington, DC: The National Academies ...

Microfluidics, the manipulation of fluids within channels of micrometre dimensions, has revolutionised the way researchers approach particle separation. By integrating advanced fabrication methods ...

Efficient gas separation is vital in various industries, from medical applications to energy production. However, isolating oxygen from mixtures presents a significant technological challenge. Because ...

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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 ...

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 ...

In this interview conducted at Pittcon 2023 in Philadelphia, Pennsylvania, we spoke to this year's recipient of The Chromatography Forum of the Delaware Valley Dal Nogare Award, Luis Colón. Please ...