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

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 ...

Researchers have developed a multilevel dispersion strategy that synergistically combines in situ confined growth, ultrasonication, atomization, and rotational shearing to incorporate ...

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, ...

Each cell contains well-defined compartments, each of which has a specific function. The nuclear envelope, for example, is a highly regulated membrane barrier that separates the nucleus from the ...