Polyethylene upcycling to long-chain alkylaromatics by tandem hydrogenolysis/aromatization
University of California, Santa Barbara · University of Illinois Urbana-Champaign · +1 more institution
Abstract
A new future for polyethylene Most current plastic recycling involves chopping up the waste and repurposing it in materials with less stringent engineering requirements than the original application. Chemical decomposition at the molecular level could, in principle, lead to higher-value products. However, the carbon-carbon bonds in polyethylene, the most common plastic, tend to resist such approaches without exposure to high-pressure hydrogen. F. Zhang et al. now report that a platinum/alumina catalyst can transform waste polyethylene directly into long-chain alkylbenzenes, a feedstock for detergent manufacture, with no need for external hydrogen (see the Perspective by Weckhuysen). Science , this issue p. 437…
Citation impact
- FWCI
- 18.72
- Percentile
- 100%
- References
- 38
Authors
9Topics & keywords
- Aromatization
- Polyethylene
- Hydrogenolysis
- Catalysis
- Carbon fibers
- Materials science
- Chemistry
- Hydrogen