Efficient Hydrogenolysis of Consumer-Grade High-Density Polyethylene Wastes over MgAl-Layered Double Oxide-Supported Ru Catalysts
Mei Yan, Jiuxuan Zhang, Zhengyan Qu, Feng Zeng, Hong Jiang, Zhenchen Tang, Weihong Xing, Rizhi Chen
Abstract
Hydrogenolysis of consumer-grade high-density polyethylene (HDPE) is a pivotal strategy for upcycling plastic waste into value-added fuels. Though Ru catalysts demonstrated activity in the hydrogenolysis of inert C–C bonds of HDPE, the precise design of Ru nanoparticles still represents a critical challenge to boost the performance. Here, ultrafine Ru nanoparticles (∼1 nm) supported on MgAl-layered double oxides (MgAl-LDO) exhibited a selectivity over 90% for liquid fuels, lubricants, and waxes in the hydrogenolysis of HDPE. By tuning the thermal treatments and Mg/Al ratios, the Ru δ+ /Ru 0 ratio and acidity/basicity of MgAl-LDO were determined as critical performance descriptors. Notably, the confining effects of the layered structure of MgAl-LDO can be optimized to facilitate the effective dispersion of Ru nanoparticles, even at elevated loadings of up to 9%. Moreover, the Ru/Mg 1 Al-LDO catalyst exhibited good applicability in the hydrogenolysis of various HDPE substrates and excellent stability, maintaining the structure and activity in five recycling runs.