Hydrogenolysis of Polyethylene by Metal–Organic Framework Confined Single-Site Ruthenium Catalysts

IF 4.4 2区 化学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY ACS Applied Polymer Materials Pub Date : 2024-10-23 DOI:10.1021/acs.chemmater.4c0218610.1021/acs.chemmater.4c02186
Manav Chauhan, Chhaya Thadhani, Bharti Rana, Poorvi Gupta, Biplab Ghosh and Kuntal Manna*, 
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Abstract

Upcycling polyolefins into value-added hydrocarbons via catalytic hydrogenolysis is challenging due to poor product selectivity, random C–C bond cleavage, and the formation of volatile alkanes. We have developed two isoreticular porous aluminum metal–organic framework (MOF) node-supported mononuclear ruthenium dihydride catalysts (DUT-5-RuH2 and MIL-53-RuH2), which are efficient in the hydrogenolysis of low-density polyethylene (LDPE) at 200 °C into a narrow distribution of liquid hydrocarbons (C8-C24). By systematic tuning of the pore sizes of the MOFs, high yields of desirable liquid alkanes were afforded with varying degrees of branching, achieving 80% selectivity. DUT-5-RuH2 produced a C22-centered bell-shaped alkane distribution with a polyethylene conversion of 98%, while MIL-53-RuH2, being selective for shorter alkanes, produced a C9-centered bell-shaped alkane distribution. Based on our spectroscopic and theoretical studies, the high catalytic activity and selectivity of these MOF catalysts are primarily attributed to the stabilization of single-site mono-RuH2 species at the MOF’s nodes via active-site isolation and the confinement of the active catalytic species within porous MOFs. Theoretical calculations suggest that RuH2-mediated polyolefin C–C bond cleavage primarily occurs via turnover-limiting σ-bond metathesis. This study underscores the significance of MOFs in the rational design of heterogeneous catalysts for the efficient upcycling of plastic waste.

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金属有机框架封闭单位钌催化剂对聚乙烯的氢解作用
由于产品选择性差、C-C 键的随机裂解以及挥发性烷烃的形成,通过催化氢解将聚烯烃升级回收为高附加值烃类具有挑战性。我们开发了两种等理论多孔铝金属有机框架(MOF)节点支撑的单核二氢钌催化剂(DUT-5-RuH2 和 MIL-53-RuH2),它们能在 200 °C 下将低密度聚乙烯(LDPE)高效氢解为分布狭窄的液态烃(C8-C24)。通过系统地调整 MOFs 的孔径大小,可以获得高产率的理想液态烷烃,其支化程度各不相同,选择性达到 80%。DUT-5-RuH2 产生了以 C22 为中心的钟形烷烃分布,聚乙烯转化率达到 98%,而 MIL-53-RuH2 则对较短的烷烃具有选择性,产生了以 C9 为中心的钟形烷烃分布。根据我们的光谱和理论研究,这些 MOF 催化剂的高催化活性和选择性主要归功于单位单 RuH2 物种通过活性位点隔离稳定在 MOF 的节点上,以及活性催化物种被限制在多孔 MOF 中。理论计算表明,RuH2 介导的聚烯烃 C-C 键裂解主要是通过限制周转的 σ 键偏聚作用进行的。这项研究强调了 MOFs 在合理设计异相催化剂以高效回收塑料废弃物方面的重要意义。
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来源期刊
CiteScore
7.20
自引率
6.00%
发文量
810
期刊介绍: ACS Applied Polymer Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics, and biology relevant to applications of polymers. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrates fundamental knowledge in the areas of materials, engineering, physics, bioscience, polymer science and chemistry into important polymer applications. The journal is specifically interested in work that addresses relationships among structure, processing, morphology, chemistry, properties, and function as well as work that provide insights into mechanisms critical to the performance of the polymer for applications.
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