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 ...

A novel porous material capable of separating deuterium (D2) from hydrogen (H2) at a temperature of 120 K has been introduced. Notably, this temperature exceeds the liquefaction point of natural gas, ...

A latest study introduces a surfactant-based method for the selective recovery of fine active materials from high-temperature water electrolyzers. By employing cetyltrimethylammonium bromide (CTAB) ...

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 ...

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 ...

Electrostatic separation processes have emerged as a robust and versatile approach for the sorting of granular materials based on differences in their electrical properties. By utilising ...

As global industries accelerate toward higher efficiency, cleaner production, and intelligent automation, magnetic technology is increasingly recognized as a critical enabler rather than a supporting ...

The microscopic structure of the feathers of the eastern bluebird, a type of North American thrush, has inspired the creation of a simple-to-produce, scalable and robust novel synthetic material that ...

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

Figure 1. The crystal structure of Cu-ZIF-gis that shows cylindrical straight channels along the c-axis31. The pores were calculated with Connolly surfaces with a probe of 1.1 Å. (Cu, orange; N, blue; ...