Meeting the separation challenge through thermal crosslinking A crucial but highly energy-intensive and costly element common to chemical, pharmaceutical and petrochemical industries is the separation ...

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 ...

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 ...

A University research team has recently discovered a new, more efficient method of separating isotopes. Led by Steven J. Sibener, Jacob Graham, and Kevin Nihill from the Department of Chemistry, the ...

In nanoscale particle research, precise control and separation have long been a bottleneck in biotechnology. Researchers at the University of Oulu have now developed a new method that improves ...

As novel therapeutic modalities progress through development, improved analytical techniques are required to overcome characterization challenges. This presentation will overview various high ...

(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 ...

A microfluidic approach combines electric slip and viscoelastic forces to sort nanoscale particles, increasing the purity of synthetic beads and cell vesicles. (Nanowerk News) Separating nanosized ...