Synthesis and catalytic evaluation of dendrimer-templated and reverse microemulsion Pd and Pt nanoparticles in the reduction of 4-nitrophenol: The effect of size and synthetic methodologies

Ji Hyang Noh, Reinout Meijboom

Research output: Contribution to journalArticlepeer-review

47 Citations (Scopus)

Abstract

The objective of this study was to produce well-defined palladium and platinum nanoparticles and investigate the effect of nanoparticle size and synthetic methodologies in the catalytic activities. Two types of template, hydroxyl terminated poly(amidoamine) dendrimer template and reverse microemulsions using sodium dietylhexylsulfosuccinate (AOT) surfactant/isooctane/water system, were utilized to produce Pd and Pt nanoparticles. The average diameter (d) of Pd and Pt nanoparticles were 1.9-2.5 nm by the dendrimer-template method, 3.5-5.1 nm by the reverse microemulsions. Overall, smaller sizes with narrower size distributions were obtained by the dendrimer template method. The reduction of 4-nitrophenol (4-Nip) was selected as a model reaction to fulfill the objective of this study. The surface normalized rate constant (k1), which takes into account the size of nanoparticle, was utilized to compare the catalytic activities of various catalytic systems in literature as well as in this study. The effect of nanoparticle size and synthetic methodologies on the catalytic activities will be discussed based on k1. The results indicate that Pd based nanoparticles presented higher catalytic activities as compared to Pt based nanoparticles and the nanoparticle produced by the dendrimer template showed superior activities to that of the reverse microemulsions for the reduction of 4-Nip.

Original languageEnglish
Pages (from-to)107-120
Number of pages14
JournalApplied Catalysis A: General
Volume497
DOIs
Publication statusPublished - 1 May 2015

Keywords

  • 4-nitrophenol reduction
  • AOT
  • Damköhler number
  • PAMAM dendrimer
  • Pd nanoparticles
  • Pt nanoparticles, Dendrimer-templated
  • Reverse microemulsions
  • Surface normalized rate constant (k<inf>1</inf>)

ASJC Scopus subject areas

  • Catalysis
  • Process Chemistry and Technology

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