Invited speakers this afternoon #F23MRS: Profs. Shoji Hall @ShojiHall and Smaranda Marinescu @USCMarinescu
This a pleasant suprise! Our recent article using water activity to promote the reduction of CO2 to multicarbon products was highlighted as a 'news & views' in @NatureCatalysis . Check it out here:
Is water activity the elephant in the room?
Nature Catalysis - The electrochemical conversion of carbon dioxide to high-value multicarbon products is very desirable...
www.nature.com
Excited to share my latest 'News & Views' article in @NatureCatalysis! We spotlight recent work by @tedsargentNU_TO & David Sinton, and discuss challenges & opportunities in acidic CO2 electroreduction.
https://rdcu.be/dmKxs
New Energy Focus: The growing importance of understanding the microenvironment in electrocatalysis, highlighting different key factors for advancing sustainable energy and catalysis applications.
Read more ➡️
Join the ECS National Capital Section #webinar on September 14, 2023, from 1200-1300h ET, when Dr. A. Shoji Hall of Johns Hopkins University presents his work on “Atomic-scale Insights into Electrocatalyst Structure and Function.” Register to attend!
We are seeking a Postdoctoral Scholar to join our NSF-funded project on understanding how water activity controls reactivity at interfaces. This role offers an exceptional opportunity to contribute to cutting-edge science! Email me your CV at [email protected] for consideration.
Check out our recent article published in @NatureCatalysis. Here we found that tuning the activity of water can improve the formation of multicarbon products by suppressing proton transfer!
More details can be found here: https://www.nature.com/articles/s41929-023-01010-6
Congrats: @nickhzhang
In @NatureCatalysis: Improving electrochemical conversion of CO2 into valuable chemical products. @ShojiHall and team find that water activity is pivotal in enhancing CO surface coverage and promoting C-C coupling. #RenewableEnergy #Electrocatalysis
Check out our recent article published in @NatureCatalysis. Here we found that tuning the activity of water can improve the formation of multicarbon products by suppressing proton transfer!
More details can be found here:
Congrats: @nickhzhang
Promoting Cu-catalysed CO2 electroreduction to multicarbon products by tuning the activity of H2O
Nature Catalysis - Copper-based electrocatalysts promote the formation of high-value multicarbon products from CO2, but ...
www.nature.com
Need to find new trends in Electrocatalysis? Read this Energy Focus article by @ShojiHall Marcel Schreier*, Paul Kenis, Fanglin Che
Trends in Electrocatalysis: The Microenvironment Moves to Center Stage | ACS Energy Letters
Enjoying #ACSFallmeeting reunions with friends. Tomorrow more chemistry! @ShojiHall @HSresearchgroup @RogelioHdezL
This summer, I had the chance to mentor two students, Luis and Esosa, from local Baltimore High Schools @ShojiHall lab through @HopkinsEngineer Center for Educational Outreach WISE program. They conducted research on how carbon emissions affect the environment!
@JHUMaterials