Vanderbilt researchers have developed an atomically thin membrane with extremely high selectivity and permeability for use in personal protective equipment.
Vanderbilt researchers have developed an atomically thin membrane with extremely high selectivity and permeability for use in desalination and nanofiltration applications.
Vanderbilt researchers have developed a novel membrane for membrane distillation that is resistant to both fouling and wetting and can be used to treat highly contaminated saline wastewater.
Vanderbilt researchers have developed a unique membrane material for more efficient and reliable eletrodialysis. By utilizing a 3D junction structure, the nanofiber bipolar membrane does not degrade or delaminate during high current passage unlike commercial 2D membranes that are currently available.
Vanderbilt researchers have developed a low-cost, high sensitivity sensor based on a porous silicon (PSi) membrane waveguide. This sensor is designed to be a cost-effective alternative to conventional fiber optic and SPR sensors for both biosensing and chemical sensing applications.
