Electroosmotic pump technology utilises electric fields to mobilise liquid through charged porous materials or microchannels by harnessing the electrical double layer at the solid–liquid interface.

The electro-osmotically modulated hemodynamic across an artery with multiple stenosis is mathematically evaluated. The non-Newtonian behaviour of blood flow is tackled by utilizing Casson fluid model ...

Nanochannels have important applications in biomedicine, sensing, and many other fields. Though engineers working in the field of nanotechnology have been fabricating these tiny, tube-like structures ...

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However, the journey to harness the full potential of nanopores has been fraught with challenges. One of the most persistent issues has been the difficulty in capturing and controlling the movement of ...

The manipulation of reagents and samples for multiple purposes including reactions and analysis for biotechnology, nanotechnology, and chemistry applications requires reproducibility and simplicity to ...

Researchers at Tohoku University in Japan have used electroosmotic flow to create a self-moisturising contact lens, an advance that could help alleviate dry eye syndrome. The self-moisturising lens, ...

Capillary Electrophoresis (CE) is a fundamental technique in bioanalytical chemistry for sorting molecules by their electrophoretic mobilities. Good separation requires that axial spreading of the ...

A pain-free, organic and biodegradable drug delivery patch may be on the horizon for home health care patients soon. Researchers have developed a biobattery-powered device capable of both delivering ...

Nanochannels have important applications in biomedicine, sensing, and many other fields. Though engineers have been fabricating these tiny, tube-like structures for years, much remains unknown about ...