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Modification of Pd Nanoparticles with Lower Work Function Elements for Enhanced Formic Acid Dehydrogenation and Trichloroethylene Dechlorination

Zhenjie Li, Jiang Xu, Fan-Xu Meng, Kun Yang, Daohui Lin

2022ACS Applied Materials & Interfaces16 citationsDOI

Abstract

Catalytic degradation of halogenated contaminants by palladium (Pd) is a promising technology for environmental remediation. However, the low utilization of H by Pd catalyst and its easy poisoning prevent its applications. Here, low work function elements (B or Ag) were incorporated into Fe@C-supported Pd nanoparticles (NPs) to alter their crystalline structure and induce electronic effects, addressing these issues. The Pd mass-normalized dechlorination rates of trichloroethylene (TCE) by Fe@C–Pd–B and Fe@C–Pd–Ag were 51 and 59 times higher than that of unmodified Fe@C–Pd, respectively. The H utilization efficiency of Fe@C–Pd–B and Fe@C–Pd–Ag was 5.4 and 7.2 times higher than that of unmodified Fe@C–Pd, respectively. Various characterizations suggest that the B or Ag incorporation induced the charge redistribution and elevated the electron density of Pd atoms, resulting in the enhanced formic acid (FA) dehydrogenation and TCE dechlorination. Although the Ag incorporation presented a relatively higher H utilization due to the suppressed combination of H and accumulation of unsaturated hydrocarbons (i.e., C2H4), the Fe@C–Pd–Ag was easily deactivated. In contrast, the B incorporation enabled the Pd NPs with a good stability. These findings can guide the rational design of robust Pd-based catalysts for efficient and selective FA dehydrogenation and chlorinated contaminant degradation.

Topics & Concepts

DehydrogenationCatalysisTrichloroethyleneFormic acidMaterials sciencePalladiumNanoparticleInorganic chemistryNanotechnologyChemistryOrganic chemistryEnvironmental remediation with nanomaterialsCarbon dioxide utilization in catalysisCatalytic C–H Functionalization Methods
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