ORNL researchers created a durable zeolite catalyst that converts methane and carbon dioxide into syngas without degradation ...

Researchers have developed a new aluminosilicate zeolite, ZMQ-1, which features a unique intersecting meso-microporous ...

A BRIEF investigation has been made of the possibility of producing poison-resistant catalysts for some gas–solid reactions by using the molecular sieve properties of zeolites. Most catalyst ...

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

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

CHEMICAL engineers from MIT have designed a catalyst that can convert methane into polymers, in a process they predict will ...

Chemical engineers designed a catalyst that can convert methane into useful polymers, which could help reduce greenhouse gas emissions.

Researchers have developed a new aluminosilicate zeolite, ZMQ-1, which features a unique intersecting meso-microporous ...

Although it is less abundant than carbon dioxide, methane gas contributes disproportionately to global warming because it ...

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

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

To achieve methane conversion without that input of energy, the MIT team designed a hybrid catalyst with two components: a zeolite and a naturally occurring enzyme. Zeolites are abundant ...