As green hydrogen emerges as a key next-generation clean energy source, securing technologies that enable its stable and cost ...

Membrane technologies contribute towards advances in tackling global environmental issues and improving people’s quality of life. Examples include water purification, desalination, industrial ...

Measuring membrane thickness was previously only possible in artificial membranes—now scientists can do it inside intact cells, providing crucial context for understanding how cells work.

The reliable separation of some gases from others could be highly advantageous for a wide range of applications. For instance, it could help to produce hydrogen (H 2) for fuel cells and chemical ...

Cell membranes are the boundaries of living cells. They are made up of amphiphilic lipids, cholesterol, and membrane proteins arranged in a dynamic bilayer. They regulate signal transduction, ...

Membrane contactors have emerged as a promising alternative to conventional carbon capture systems by marrying the high selectivity of liquid absorption with the compact modularity of membrane ...

Modern cells are complex chemical entities with cytoskeletons, finely regulated internal and external molecules, and genetic ...