Browse Technologies

• 
• 
• 
• 

Vanderbilt researchers have discovered a method ofmonitoring the placement of electrodes in cochlearimplants (CIs) through the use of electrical impedancemeasurements. This technology offers real-timefeedback on electrode positioning, which can beused to more accurately place electrodes duringinitial implantation, or better program the implantsafter they have been placed. These enhancementscombine to give increased hearing quality to bothnew and existing CI patients.

Vanderbilt researchers have developed a thermoresponsive filament material for use in 3D printing that can be readily dissolved via cooling. This material has use in a multitude of different applications. One potential application is lost-wax casting for tissue engineering. The present material enables the user to print an intricate vascular structure, embed the structure in an engineered tissue construct, and then dissolve the printed structure to create a hollow vascular network embedded within the tissue construct.

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 and Fisk University researchers have developed a new type of gamma ray spectroscope (GRS) that overcomes the limitations of current systems. This type of GRS can be used to accurately determine the subsurface chemical composition of celestial bodies in the solar system.