University of Houston: Discovery Will Allow More Sophisticated Work at Nanoscale
July 28, 2020
July 28, 2020
HOUSTON, Texas, July 28 -- The University of Houston issued the following news release:
The movement of fluids through small capillaries and channels is crucial for processes ranging from blood flow through the brain to power generation and electronic cooling systems, but that movement often stops when the channel is smaller than 10 nanometers.
Researchers led by a University of Houston engineer have reported a new understanding of the process and why some fluids stagna . . .
The movement of fluids through small capillaries and channels is crucial for processes ranging from blood flow through the brain to power generation and electronic cooling systems, but that movement often stops when the channel is smaller than 10 nanometers.
Researchers led by a University of Houston engineer have reported a new understanding of the process and why some fluids stagna . . .