Biological membranes of cells and their subunits (organelles) are organized into tiny regions (nanodomains) made up of fats ...

Electrons are tiny and constantly in motion. How they behave in a crystal lattice determines key material properties: ...

In a below-ground lab off Fitch Street, Maggie Blanchard is working with fellow SCSU students to study how fuel cells degrade -- and to help keep Connecticut on the cutting edge of "quantum." On ...

Built from thickets of glucose, galactose, mannose and more, the glycome plays key roles in cell communication, immunity and ...

International research team presents new imaging technique to make lipids in cellular membranes visible and show how they are organized at the nanoscale. To the point: 3D visualization of lipids with ...

Researchers have revealed how bacteria precisely control the genes that trigger cell division. The study shows that the MraZ ...

Scientists at Caltech have figured out how to precisely engineer tiny three-dimensional (3D) metallic pieces with nanoscale dimensions. The process can work with any metal or metal alloy and yields ...

International research team presents new imaging technique to make lipids in cellular membranes visible and show how they are ...

Under the microscope, plankton becomes an unlikely star as artist Jess Holz documents their movements to highlight both their ...

Scientists have revealed how the body’s microscopic cold sensor, TRPM8, detects both chilly temperatures and the cooling effect of menthol. The discovery finally shows how the sensation of “cool” ...