The I-TEAM is giving you the first look inside a Toledo chemical storage facility that caught the eye of environmental crews ...
Chemical engineers at the Massachusetts Institute of Technology (MIT) have developed a catalyst that can convert methane into ...
The Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) and several collaborating institutions have ...
The Fellowships recognizes for their pioneering contributions to environmental bioengineering, circular bioeconomy and ...
The greenhouse gas methane can now be converted into useful polymers with a catalyst that works at room temperature and ...
University at Buffalo engineer Kaihang Shi specializes in using artificial intelligence, molecular simulation and other approaches to create nanomaterials for energy and sustainability applications.
Chemical engineers designed a catalyst that can convert methane into useful polymers, which could help reduce greenhouse gas emissions.
MIT researchers developed a hybrid catalyst that converts methane to polymers at room temperature and atmospheric pressure.
Chevron Corporation today announced an organic capital expenditure range of $14.5 to $15.5 billion for consolidated ...
Celanese derives 54% of its revenue from engineered materials and 46% from the acetyl chain. Check out why I'm bullish on CE ...
The global polymer emulsion market size was US$ 27.7 billion in 2021. The global polymer emulsion market is forecast to grow to US$ 51.1 billion by 2030 by growing at a compound annual growth rate ...
Researchers use an innovative set of machine-learning models to discover a record-breaking material for film capacitors.