In 1950, global plastic production was about 2 million tons. It’s now about 400 million tons – an increase of nearly 20,000%. As a material, it has seemingly limitless potential. Plastic is ...

A joint research team has developed a technology to produce high-value-added plastic raw materials called dicarboxylic acids ...

The results are impressive: They report a record- high yield of nearly 66% of the plastic waste converted into chemicals that can be used for fuels. Using 3D printing to build the structure allowed ...

Yale researchers unveiled a 3D-printed carbon column reactor that can convert 66% of polyethylene plastic into fuel chemicals without costly catalysts. The breakthrough addresses major efficiency and ...

Picture this: a 21-year-old backyard scientist in Alabama, Julian Brown, sweeps away some dirt and leaves from his homemade solar- and generator-powered, 10-magnetron-powered pyrolysis microwave ...

Kevin A. Schug receives funding from the National Science Foundation, the National Institutes for Health, ExxonMobil, and Weaver Consultants Group. He is affiliated with VUV Analytics, Inc. and ...