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

The separation process can be conducted using various instruments, but the most fitting method depends on the mixture’s properties. This article covers the importance of solid-liquid separation in the ...

In the first instalment of LCGC International's interview series exploring how artificial intelligence (AI)/machine learning ...

Without the critical step of separation—isolating cells, nucleic acids, and proteins from biological samples—many workflows in research, diagnostics, and cell therapy would not be possible. Over the ...

UNIVERSITY PARK, Pa. — A new method improves the extraction and separation of rare earth elements—a group of 17 elements critical for technologies such as smart phones and electric car batteries—from ...

The U.S. petroleum processing industry refines 97 percent of the nation's transportation fuels and produces raw materials for other industries, such as the chemical industry. The petroleum refining ...

A recent study has unveiled a hemolysis-free and highly efficient blood plasma separation platform. A team of researchers, affiliated with UNIST has recently unveiled a hemolysis-free and highly ...

Gradient elution involves a programmed change in mobile-phase composition over time, transitioning from weak to strong during a separation. Linear gradients, characterized by a constant change in ...

A microfluidic approach combines electric slip and viscoelastic forces to sort nanoscale particles, increasing the purity of synthetic beads and cell vesicles.