Chemical Recycling of Polyethylene by Tandem Catalytic Monomerization to Propylene

Autor: Nicholas Wang, Garrett Strong, Vanessa DaSilva, Lijun Gao, Rafael Huacuja, Ivan Konstantinov, Mari Rosen, Alex Nett, Sean Ewart, Roland Geyer, Susannah Scott, Damien Guironnet
Rok vydání: 2022
DOI: 10.26434/chemrxiv-2022-dsl6c
Popis: Although polyethylene (PE) and polypropylene (PP) are by far the world’s largest volume plastics, only a tiny fraction of these energy-rich polyolefins is currently recycled. Depolymerization of PE to its constituent monomer, ethylene, is highly endothermic and conventionally accessible only through unselective, high temperature pyrolysis. Instead, a tandem catalysis strategy serves to convert PE to propylene, the commodity monomer used to make PP. The approach combines rapid olefin metathesis with rate-limiting isomerization. Mono-unsaturated PE is progressively disassembled at modest temperatures via many consecutive ethenolysis events, resulting ultimately in propylene. Fully saturated PE can be converted to unsaturated PE starting with a single transfer dehydrogenation to ethylene, which produces a small amount of ethane (one equiv. per dehydrogenation event). These principles are demonstrated using both homogeneous and heterogeneous catalysts. While selectivity under batch conditions is limited at high conversion by formation of an equilibrium mixture of olefins, high selectivity to propylene (greater than 90 %) is possible a semi-continuous process due to the continuous removal of propylene from the reaction mixture.
Databáze: OpenAIRE