Summaries by Inventor Wang, Zhongyang
Ramani, Vijay ; Sankarasubramanian, Shrihari ; Wang, Zhongyang
T-019124
— Technology Description Engineers in Prof. Vijay Ramani’s laboratory have developed a biopolar interface membrane to prevent fuel crossover and improve the performance of direct methanol and direct ethanol fuel cells (DMFC and DEFC). This membrane separator is designed to maintain a steep pH …
Low cost, high performance anion exchange membranes for grid-scale energy storage and other electrochemical devicesParrondo, Javier ; Ramani, Vijay ; Wang, Zhongyang
T-018608
— 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…
Triblock Copolymer Based Anion Exchange Membranes (Aems) As Separators in Electrochemical DevicesParrondo, Javier ; Ramani, Vijay ; Wang, Zhongyang
T-017637
— Background: Anion exchange membranes (AEMs) are used as separators in redox flow batteries, water electrolyzers, water desalination systems, fuel cells, and other electrochemical devices. Current AEMs suffer from issues with cost, poor stability and low perm selectivity. For example, current redox flow batteries are not economical or suffer from capacity loss upon cycling due to cross species contamination while using less expensive decoupled chemistries.An advanced, tunable AEM has been developed with dramatically reduced cost and improved performance relative to industry leading AEMs. High ionic conductivity, chemical stability and enhanced mechanical performance have been shown. The technology includes tunable membrane compositions, mechanical re…
