Enzymes are large biological molecules—usually proteins—that speed up chemical reactions. Molecules that speed up chemical ...

MIT researchers have developed a new catalyst that converts methane into polymers at room temperature and atmospheric ...

At the molecular level, methane consists of one carbon atom linked to four hydrogen atoms. Ideally, this molecule could serve ...

The mechanism of enzyme catalysis is similar in principle to other types of chemical catalysis, for instance by involving a combination of several different types of catalysis. Determining enzyme ...

Enzymes act as a catalyst in several bio-chemical reactions. These enzymes are responsible for controlling or speeding up the reaction, thus, providing numerous advantages over conventional chemical ...

Chemical engineers at the Massachusetts Institute of Technology (MIT) have developed a catalyst that can convert methane into ...

MIT researchers developed a hybrid catalyst that converts methane to polymers at room temperature and atmospheric pressure.

MIT chemical engineers have developed a groundbreaking catalyst that converts methane gas into valuable polymers like ...

Methane can be converted into polymers with a new catalyst that works at room temperature and atmospheric pressure.

Proteins are so much more than nutrients in food. Virtually every reaction in the body that makes life possible involves this ...

In a recent study in Green Chemistry, scientists from the King's College London and Brazilian Biorenewables National ...

A new way to produce fuels made from leftover fat can create biofuel as effective as diesel and 1000-times more efficiently ...