by | Oct 22, 2019 | Parrondo, Javier, Ramani, Vijay, Wang, Zhongyang
— Technology Description
Engineers in Prof. Vijay Ramani’s laboratory have developed a variety of robust, versatile anion exchange membrane (AEM) materials that achieve high performance through superior ion selectivity. These mechanically and chemically stable membranes have the potential to d…
by | Oct 22, 2019 | Agonafer, Damena, Ma, Binjian, Shan, Li
— Technology Description
Engineers in Prof. Damena Agonafer’s laboratory have developed a highly-efficient, compact, modular evaporative cooling platform with materials and nanostructured geometries designed to greatly enhance thermal management of 3D integrated circuits, power converters and …
by | Aug 17, 2018 | Atlas, Gal, Axelbaum, Richard, Elhassid, Dror, Lengyel, Miklos
— Background
Material morphology and composition are critical for production of Li+ ion battery cathodes, and there is a need for improved synthesis methods that yield high quality materials through cost effective, green, scalable processes. Further, there is often a need to dope materials during syn…
by | Aug 17, 2018 | Atlas, Gal, Axelbaum, Richard, Elhassid, Dror, Lengyel, Miklos
— Background
Material morphology and composition are critical for production of Li+ ion battery cathodes, and there is a need for improved synthesis methods that yield high quality materials through cost effective, green, scalable processes. Further, there is often a need to dope materials during syn…
by | Mar 10, 2018 | De, Sumitava, Lawder, Matthew, Northrop, Paul, Ramadesigan, Venkatasailanathan, Subramanian, Venkat, Suthar, Bharatkumar
— Advanced technology for Li ion batteries that allows 20% greater energy storage and 50% reduction in charging time without compromising the safety or lifetime of the battery system. Rechargeable batteries (e.g. Li ion) are managed as part of a subsystem that includes control of the charge and disch…