Capturing CO2 and using it to make a chemical - all while removing more CO2 than it generates - is a win-win. UIC News engineers built a machine that captures carbon from flue gas and converts it to ethylene, an important chemical in manufacturing: today.uic.edu/an-integrated-…

Today we mourn the passing of a luminary, Dr. George Crabtree, @Argonne Distinguished Fellow who served as director of JCESR. George was an amazing leader, colleague, and friend. Our thoughts and prayers are with his family. bit.ly/3XXiTFl

Best cover of ChERD in 2022 is from the special issue dedicated to Women in Chemical Engineering, which I had the pleasure to co-edit with Meenesh Sing. Check the editorial in sciencedirect.com/science/articl…

Our very own UIC Chem Engineering Professor Meenesh Singh from the UIC MaSEL lab was featured on an episode of Global Energy Show Canada! Meenesh discussed his research on carbon capture technologies. Watch the full interview here: youtu.be/Pj3Qevci210

Microkinetic Insights into the role of Catalyst and Water Activity on the Nucleation, Growth, and Dissolution during COF-5 Synthesis pubs.rsc.org/en/Content/Art…

Thank you Sustainable Chemistry ! 😊 #ClimateCrisis #Sustainability

Our @AdvSciNews Adv. Energy Mat. Article onlinelibrary.wiley.com/doi/full/10.10… shows CoO NCs on graphene have high mass activity and selectivity for conversion of #nitrates to #ammonia, with total suppression of H2. Great collaboration from Vinayak P. Dravid, Vikas Berry, and Joe Gauthier's groups.

Uncover microkinetic insights into the role of catalyst and water activity on the nucleation, growth, and dissolution during COF-5 synthesis in the latest Nanoscale journal family article from Meenesh R. Singh and colleagues UIC MaSEL UIC Chem Engineering Argonne National Lab UIC News 👇 pubs.rsc.org/en/Content/Art…

By integrating time-resolved in-situ FT-IR with a large-scale microkinetic model, UIC MaSEL reveals previously unknown roles of catalyst pKa and water on COF synthesis. Featured on the back cover of this week's Nanoscale journal family : 👇 rsc.li/43Ieedf

Excited to welcome Prof Singh from UIC!

Thanks, Yamil J. Colón Rodríguez !

▶️ Snap-on Adaptor for Microtiter Plates to Enable Continuous-Flow Microfluidic Screening and Harvesting of Crystalline Materials 👥 Meenesh R. Singh et al. Learn more 👉 go.acs.org/6WG University of Illinois Chicago AbbVie Biogen

🔬⚡️ Green chemistry meets high-pressure innovation! 💡 UIC MaSEL is unleashing the power of electrochemistry to transform commodity chemical synthesis. 🔄 Bye mass transfer and energy efficiency limitations, hello sustainable future! 🌱🚀 #EESCatalysis doi.org/10.1039/D3EY00…

Sequential Hydrolysis of Metal Oxo Clusters Drives Polymorphism in Electrodeposited Zirconium Metal–Organic Frameworks dx.doi.org/10.1021/acs.ch…

Meenesh Singh, associate professor in the chemical engineering department, was recently awarded four industrial grants to develop various green technologies... che.uic.edu/news-stories/i…

Hydrogen fuels are one of the most promising sources of clean energy, but their production remains dirty. A team led by UIC's Meenesh Singh created a new greener process for isolating hydrogen from water using solar power and...cow dung? today.uic.edu/new-method-mak…

.UIC Chem Engineering Prof Meenesh Singh and his team designed a way to make hydrogen gas from water using only solar power and agricultural waste in a way that reduces the energy needed by 600%, creating new opportunities for sustainable chemical production. shorturl.at/UWwWp

This week's Green Sense Minute from WBBM Newsradio features Meenesh Singh of UIC Chem Engineering & UIC MaSEL who is researching a better way to make hydrogen gas audacy.com/wbbm780/news/l…

📣 Exciting News ✨ We are thrilled to share that our colleague recently visited Dr. Meenesh Singh at University of Illinois Chicago. 🤝 We look forward to the exciting outcomes that will undoubtedly arise from this collaboration. UIC Chem Engineering UIC Engineering @mdpiengineering UIC MaSEL