New contaminant-tolerant catalyst could help capture carbon directly from smokestacks
Electrochemical catalyst for converting CO2 to valuable products can stand up to an impurity that poisons current versions
Tag: carbon capture
U of T Engineering professor incorporating AI to help decarbonize chemical industries
Joint EMHSeed and XSeed Funding Program to support research on expanding database of metal-organic frameworks for AI analysis
New electrocatalyst improves both stability and efficiency in electrochemical conversion of captured carbon into valuable products
Improved design enables operation in acidic conditions for more than 150 hours, more than ten times as long as previous versions
New electrochemical process could raise the efficiency of capturing carbon directly from air
Device designed by U of T Engineering team regenerates carbon capture liquids by rapidly switching between electrolyzer and fuel cell mode
New catalyst could increase the value of captured carbon by transforming it into acetic acid
Electrocatalyst achieves record-breaking selectivity toward the desired product, a key step toward industrial production
How re-thinking traditional building materials can lead to new strategies for carbon capture and utilization
Professor Daman Panesar (CivMin) and her team have partnered with the Canada Green Building Council on a $1.7 million study of negative emission technologies