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A reusable, impurity-tolerant and noble metal–free catalyst for hydrocracking of waste polyolefins

Zetian Qiu, Siyu Lin, Zhuo Chen, Anqi Chen, Yitian Zhou, Xudong Cao, Yu Wang, Bo‐Lin Lin

2023Science Advances104 citationsDOIOpen Access PDF

Abstract

One-step conversion of low-purity polyolefins to value-added products without pretreatments represents a great opportunity for chemical recycling of waste plastics. However, additives, contaminants, and heteroatom-linking polymers tend to be incompatible with catalysts that break down polyolefins. Here, we disclose a reusable, noble metal–free and impurity-tolerant bifunctional catalyst, MoS x -Hbeta, for hydroconversion of polyolefins into branched liquid alkanes under mild conditions. The catalyst works for a wide scope of polyolefins, including different kinds of high–molecular weight polyolefins, polyolefins mixed with various heteroatom-linking polymers, contaminated polyolefins, and postconsumer polyolefins with/without cleaning under 250°C and 20 to 30 bar H 2 in 6 to 12 hours. A 96% yield of small alkanes was successfully achieved even at a temperature as low as 180°C. These results demonstrate the great potentials of hydroconversion in practical use of waste plastics as a largely untapped carbon feedstock.

Topics & Concepts

HeteroatomCatalysisMaterials sciencePolymerRaw materialNoble metalYield (engineering)Organic chemistryBifunctionalWaste managementChemical engineeringChemistryComposite materialEngineeringRing (chemistry)Microplastics and Plastic PollutionRecycling and Waste Management Techniquesbiodegradable polymer synthesis and properties
A reusable, impurity-tolerant and noble metal–free catalyst for hydrocracking of waste polyolefins | Litcius