Interesting perspective on #COVID19 future implications from @ndcbe colleague Hsueh-Chia Chang. news.nd.edu/news/bringing-…

Love it!

Congratulations to YongJun, Vitalie and team on their recent publication in ACS Nano! Using N-doped carbon hosts can turn nanoconfined LiAlH4 into a reversible hydrogen storage material! Another HyMARC collaboration. pubs.acs.org/doi/10.1021/ac…

The epsilon variant of #SARSCoV2, first detected California, carries three spike protein mutations that confer resistance to neutralizing antibodies generated by mRNA vaccines or by #SARSCoV2 infection, according to new research in Science. fcld.ly/luev9bg

The Department of Chemical and Biomolecular Engineering is excited to add three new faculty members! Welcome, Hanyu Ma, Vignesh Sundaresan, and Yong Zhang! Story➡️cbe.nd.edu/news/cbe-welco…

Glad to be a part of this interesting project!

Glad to see our work on the development of new hydrogen storage materials highlighted by Lawrence Livermore National Laboratory! llnl.gov/news/new-hydro…

LLNL scientists have found that atomic disorder in certain boron-based hydrogen storage systems can potentially improve the rate of hydrogen uptake. NNSA llnl.gov/news/disorder-…

First fruits of exciting experiment/modeling collaboration with @DIFFEREnergy on plasma catalytic nitrogen oxidation are now out. Notre Dame CBE Notre Dame Engineering @HanyuMa1 rdcu.be/cFmbz

Probing the Kinetic Origin of Varying Oxidative Stability of Ethyl- vs. Propyl-spaced Amines for Direct Air Capture (Sichi Li et al. Lawrence Livermore National Laboratory) onlinelibrary.wiley.com/doi/10.1002/cs…

Collaboration is key 🔑 A collaboration including scientists from #LLNL, Sandia National Labs, IIT Gandhinagar and Berkeley Lab has created 3-4 nanometer ultrathin nanosheets of a metal hydride that increase hydrogen storage capacity. Learn more: llnl.gov/news/going-sma… Office of Energy Efficiency and Renewable Energy

LLNL computational scientists worked with experimental collaborators at Berkeley Lab and Sandia National Labs to design metal amide-based composites capable of overcoming key kinetic limitations in their performance as hydrogen storage materials. Read more: llnl.gov/news/new-compo…

Check out this #OpenAccess #HOT article by Sichi Li, Simon Pang, & co. 🔓🔥 "Enhanced hydrogen bonding via epoxide-functionalization restricts mobility in poly(ethylenimine) for CO2 capture" @Livermore_lab Read the full article here 🔗 buff.ly/3svm6RY

Thrilled to see our DOE Office of Science-funded aminopolymer work appears on the cover of Chemical Communications !

In a significant stride toward implementing scalable climate solutions, @livermore_lab scientists have uncovered how some carbon capture materials have improved lifetime compared to others. Explore how these materials can move us closer to a greener world: livermorelab.info/44VInpx

Don't miss 'Machine learning demonstrates the impact of proton transfer and solvent dynamics on CO2 capture in liquid ammonia' by Simon H. Pang, Marcos F. Calegari Andrade, Sichi Li et al. 🔗 doi.org/10.1039/D4SC00… Sichi Li Lawrence Livermore National Laboratory DOE Office of Science 📌 #ChemSciCovers

Competing Kinetic Consequences of CO2 on the Oxidative Degradation of Branched Poly(ethylenimine) | Journal of the American Chemical Society ChBE @ Georgia Tech Lawrence Livermore National Laboratory LLNL_SciTech Jones Group @ GaTech @GTSciences #CO2 #Oxidative #Degradation #Polyethinimine pubs.acs.org/doi/10.1021/ja…

Researchers at #LLNL and Georgia Tech have made a significant breakthrough in understanding a crucial component in Direct Air Capture carbon-capture technologies. Explore how the new insights could enhance the efficiency and durability of DAC systems: livermorelab.info/3N2cGnU

Recently, U.S. Department of Energy's High-Performance Computing for Energy Innovation program announced the funding of $4 million for 10 new projects, including three collaborations involving #LLNL aimed at improving carbon capture, energy savings and CO2 reduction. livermorelab.info/4fYhOWu