Since the 1970s, automotive catalysts have provided enormous benefits to the society by eliminating harmful pollutants from vehicle exhaust emissions. With increasingly more stringent emission regulations and the need to limit carbon emissions, the automotive industry is facing many new challenges.
School of Chemical Engineering and Bioengineering
October 2023
Join Genesis Alkali to learn more about career and internship opportunities for Chemical Engineer, Electrical Engineer, Mechanical Engineer, and Civil Environmental Engineer majors.
Converting CO2 to value-added chemicals and fuels is one of the most practical routes for reducing CO2 emissions while fossil fuels continue to dominate the energy sector in the near future.
This talk will summarize our understanding of design for DNA nanofabrication and my work to advance that understanding, emphasizing efforts to improve the thermodynamic measurements of the constituent hybridization reactions and the yield measurements of full DNA origami systems.
Single-atom catalysis represents an exciting area of research due to the potential to uniquely transform the activity and selectivity of transition metal catalysts. However, our fundamental understanding of their activity and stability under reaction conditions is limited.
Grab a snack and chat with the Dean of Voiland College of Engineering and Architecture, Mary Rezac.