General Engineering

Displaying 11 - 13 of 13

Porous Materials with Active Sites Created via In-Pore Synthesis

Vanderbilt researchers have synthesized porous adsorbent materials for the capture of toxic industrial chemicals. These adsorbent materials have finely dispersed reactive sites that allow for higher adsorption capacities than existing materials. They can be used in filters for the military, homeland security, first responders, and for a wide range of industrial and commercial catalysts to capture toxic gases such as ammonia and sulfur dioxide.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

M. Douglas LeVan, Dushyant Barpaga
Category:
General Engineering Thin Films & Nanomaterials

Electrochemically Actuated Optical Modulator

Vanderbilt University researchers have developed a novel approach for creating dynamic, tunable reflective color displays using an electrochemical modulator. The technology can be implemented into devices requiring low power reflective color displays, such as smart watches and e-readers, and is adaptable for spectral control across a broad spectrum of frequencies from the visible to the far infrared. This technology provides a low power, tunable approach for modulating the optical properties of a material.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Jason Valentine, Cary Pint, Zachary Coppens, Adam Cohn
Category:
Energy General Engineering Thin Films & Nanomaterials

Accurate Gamma-Ray Spectroscope for Compositional Analysis of Celestial Bodies

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.

Licensing Contact

Chris Harris

615.343.4433

Inventors

Keivan Stassun, Arnold Burger
Category:
General Engineering