Scientists found a catalyst that turns waste plastic waste into cleaner fuel much faster than before, making the process more ...

University of Delaware researchers have developed a new catalyst that doubles the speed and efficiency of converting plastic ...

Hydro-processing catalysts are indispensable to refinery operations, especially in hydrocracking and desulfurization ...

Examples of Applications/Achievements of Organic Matter Magnetic Pyrolysis Energy Conversion Technology ...

UD team develops mesoporous MXene catalyst to upcycle plastic waste into liquid fuels faster and more efficiently.

This study presented a novel method to convert saline containers into fuel, using pyrolysis and nanotechnology to enhance sustainability and reduce plastic waste.

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 ...

Green Carbon Development, led by Process Technical Services (PTS; Houston, Tex.; an established technical services ...

Plastic is littering the entire planet, and scientists are trying to turn it back into a usable fuel source by heating it to very high temperatures. The process is not efficient enough to be feasible ...

OXCCU, a spin-out company from the University of Oxford, is developing novel catalysts and reactor designs to convert waste carbon into liquid hydrocarbons with high conversion and selectivity for use ...

This study presents innovative MXene-based catalysts that optimize polyethylene conversion into valuable fuels, addressing ...

Transmission Electron Microscope (TEM) images show CsPbBr 3 nanowires with no strain (NW-NS, left), low strain (NW-LS, middle), and high strain (NW-HS, right). The curvature increases with strain due ...