The study of ionic dynamics in nanopores has uncovered a groundbreaking phenomenon that could transform diagnostics and ...

Accurate monitoring of particle size and growth is essential to ensure scalability in the development of transfection vectors ...

Researchers develop graphene-based dialysis membranes that enhance filtration efficiency while reducing protein loss for improved treatment.

A Vanderbilt-led research team has made a significant breakthrough in developing advanced dialysis membranes using atomically thin materials like graphene. These innovative membranes, called ...

Pioneering work demonstrating single-channel recordings of ionic transport through biological ion channels reconstituted in synthetic ‘black lipid membranes’ has provoked considerable recent ...

Creative Commons (CC): This is a Creative Commons license. Attribution (BY): Credit must be given to the creator. Biological nanopores offer a promising approach for single-molecule analysis of ...

The number of patients with bone defects caused by various bone diseases is increasing yearly in the aging population, and people are paying increasing attention to bone tissue engineering research.

Foodborne pathogenic microorganisms have become major threats that endanger human life and health. The current technology cannot perform rapid screening of foodborne pathogenic bacteria, and fail to ...