Bottles, bags, and other types of plastic garbage are accumulating rapidly in landfills, oceans, and the atmosphere. Meanwhile, the world’s dependence on plastic packaging is increasing. Converting plastic waste to useful products could help mitigate the problem. Until now, however, little progress has been made converting one of the most widely manufactured polymers—polypropylene. Chemists may have just come up with a solution, according to research presented at ACS Fall 2021, a meeting of the American Chemical Society. Speaking at a session in the Division of Catalysis Science and Technology, Pavel A. Kots reported that in the presence of a ruthenium catalyst, polypropylene can be converted in high yield to valuable lubricant oils for automobile engines.
Kots is a postdoctoral researcher who works with the University of Delaware’s Dionisios G. Vlachos. He described tests in which he and his coworkers used transition metals and support materials to prepare several catalysts, then compared their ability to decompose various types of polypropylene. They found that catalysts consisting of ruthenium nanoparticles supported on titanium dioxide worked well.
Specifically, the team showed that under mild hydrogenolysis conditions, the ruthenium catalyst readily depolymerized polypropylene samples, converting them to hydrocarbon oils in high yields—up to 80%. The catalyst worked well on various types of polypropylene, including samples with a range of molecular weights, and commercial polypropylene bottles and bags. The team used isotope labeling and other techniques to probe the mechanism. They found that polymer breakdown occurs through successive hydrogenolysis steps that gradually break large molecular chains into smaller products (ACS Catal. 2021, DOI: 10.1021/acscatal.1c00874).
“Polypropylene is a big part of the plastics waste problem,” said James D. Burrington, a catalysis and lubrication specialist who has spent more than 40 years in industry. This discovery along with the elucidation of the mechanism should interest the catalysis community and those engaged in furthering sustainable technologies for plastics recycling, he said.