For years, biopharma separations have followed a familiar script: improve the column, push the pressure higher, and let mass spectrometry (MS) clean up what chromatography can’t resolve. That playbook ...

Different ion mobility technologies with representative illustrations of separation mechanisms, applied field, and gas dynamics. CCS, collision cross section; DMA, differential mobility analyzer; ...

Scientists at ARCI in Hyderabad unveil a revolutionary understanding of mesoporous tin oxide beads formation, potentially ...

The SELECT Series instrument utilizes both traditional chromatography separation and ion mobility spectrometry (IMS) during which chemicals are pushed through a dilute gas to separate structurally ...

Ions influence conductivity and mobility in molecular liquid crystals, affecting electrical behavior, stability, and performance in both established and emerging technologies. (Nanowerk Spotlight) The ...

Lithium-ion batteries, fuel cells and many other devices depend on the high mobility of ions in order to work properly. But there a large number of obstacles to such mobility. Researchers have now ...

Solid-state batteries could be safer and more energy-dense than today’s lithium-ion technology, but finding materials that allow ions to move quickly through solid electrolytes has been difficult.

The basic principle of magneto-ionic gating involves the use of an ionic liquid or gel electrolyte that is placed between a gate electrode and the target material. When a gate voltage is applied, ions ...