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Synergy of metal–support interaction and positive Pd species promoting efficient C–Cl bond activation on Pd‐based Ce‐MOF‐derived catalysts

Xiaojie Hu, Yuhan Sun, Ling-Yue Liu, Danjun Mao, Shourong Zheng

2024Rare Metals15 citationsDOI

Abstract

Abstract Monochloroacetic acid (MCAA) is identified as a highly carcinogenic disinfection by‐product in chlorinated drinking water. In this study, a series of CeO 2 ‐supported Pd catalysts (Pd/MCeO 2 ) were synthesized through one‐step calcination of Pd‐loaded Ce‐UiO‐66‐BDC (Ce‐MOF), and the liquid‐phase catalytic hydrodechlorination of MCAA was explored using these catalysts. For comparison, Pd/CeO 2 catalysts were additionally synthesized using the conventional impregnation method. The characterization results reveal that the catalysts exhibit strong metal–support interaction, leading to high Pd dispersion and Pd n + content. Additionally, the calcination temperature significantly influences catalytic performance, with the catalyst calcined at 500 °C (Pd/MCeO 2 ‐500) demonstrating the highest catalytic activity and achieving complete dechlorination of MCAA within 50 min. Furthermore, it is found that the catalytic MCAA hydrodechlorination using the catalysts adheres to the Langmuir–Hinshelwood model. Accordingly, low reaction pH is favorable for the catalytic hydrodechlorination of MCAA, enhancing MCAA adsorption on the catalyst surface due to the electrostatic interaction between MCAA and the catalyst surface. Theoretical results suggest that the presence of Pd n + efficiently facilitates MCAA adsorption and C–Cl cleavage, thus significantly enhancing the liquid‐phase catalytic hydrodechlorination.

Topics & Concepts

CatalysisPalladiumMetalChemistryMaterials scienceOrganic chemistryCatalytic Processes in Materials ScienceAmmonia Synthesis and Nitrogen ReductionNanomaterials for catalytic reactions