Lorena Anderson

Carbon dioxide (CO₂) is a greenhouse gas that is contributing to irreversible climate change. Scientists know how to capture CO₂, and they know how to transform it into useful molecules and materials.

But that transformation is neither energy nor cost-effective.

Through a prestigious grant from the Department of Energy (DOE), a diverse group of scientists, including a chemist from UC Merced, plan to address that problem by coupling two chemistries which are known to work independently, but don't work well together.

For the first time, UC Merced faculty members from each of the campus’s three schools have been chosen as principal investigators on some of the 21 exciting new projects that are being funded through UC’s Multicampus Research Programs and Initiatives (MRPI).

In addition, UC Merced researchers are collaborating on 10 of the other projects.

Although climate change is still a very real challenge, the past decades of efforts to reduce the effects of human activities on the atmosphere have been potent enough to have thrown off the models scientists use to understand and forecast the atmosphere’s chemical composition and cleansing capacity.

Life and Environmental Sciences Professor Emily Moran and collaborators at several other universities are set to conduct a continental-scale analysis of climate change effects on tree reproduction.

Adding even a small amount of biochar — a charcoal-like material produced by burning organic matter — to a dairy’s manure-composting process reduces methane emissions by 84%, a recent study by UC Merced researchers shows.

The dairy industry is one of the main sources of methane in California, making up 50% of the state’s methane emissions. Reducing these emissions is a critical part of state and federal efforts to address climate change.

UCs Merced and Santa Cruz became the newest campuses in the system to be named an agricultural experiment stations (AES), UC President Michael Drake announced at today’s Regents’ meeting.

They are the first campuses in more than 50 years to earn the designation.

Researchers and students in the departments of Physics, Mechanical Engineering, and Materials Science and Engineering working on quantum physics will have upgraded equipment soon, thanks to a grant from the Department of Defense.

Professor Jay Sharping is refurbishing two dilution refrigerators that are required to perform measurements on samples at temperatures as low as 10 millikelvins (mK) — near absolute zero.

Rising juniors this fall will have an unprecedented opportunity for stem cell research training that could lead directly to careers in stem cell science after graduation.

A new five-year collaboration has presented Professor Christine Isborn the opportunity to be part of the emerging field of polariton chemistry, the results of which could change the face of chemistry.

Bioengineering Professor Victor Muñoz and his lab have created a new way to solve some of the mysteries among an increasingly important class of proteins that don’t appear to have any specific structures but serve very important functions, including the complex genetic processes that separate high-order organisms from single-cell bacteria.

They call it “molecular LEGO,” pulling the proteins apart and rebuilding them, segment by segment.