About Us

As stationary sources constitute the majority of electricity generation, part of the research in the center focuses on developing novel nanomaterials for mitigating power plant pollutant emissions, catalysts for syngas production, and offsetting coal consumption in conventional coal-fired power plants via upgraded biomass feedstock by combining our nationally leading capacities, including multi-purpose high-throughput screening, advanced spectroscopic and characterization techniques, patented nanomaterial synthesis methodologies, and Artificial Intelligence based materials discovery.

Aside from the research aimed at coal powered stationary sources, electricity generation from alternative feedstock (AFs) (CO₂, hydrogen, biofuels, etc.) has gained more interest, and our approaches to AFs have ranged from fuel production through CO₂ hydrogenation for E-Fuels and biodiesel production to the control of emissions, such as mitigation of NO_x emissions from biodiesel engines.

Currently, SAGE is also tackling the problem of hydrogen storage and transportation by developing ammonia decomposition catalysts for use in on-demand hydrogen production. Researchers in SAGE have developed and utilized machine learning methods to predict novel catalyst compositions, with predicted catalysts experimentally out-performing current state of the art catalysts while utilizing lower precious metal loadings. The center is currently working on scaling up catalyst production for use in large scale membrane reactors for commercial applications.