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Nanoparticle Synthesis via Electrostatic Adsorption Using Incipient Wetness Impregnation

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In this work charge enhanced dry impregnation (CEDI), a hybrid method of supported nanoparticle synthesis which combines the advantages of electrostatic adsorption—small particle size and tight size distributions—with the simplicity… Click to show full abstract

In this work charge enhanced dry impregnation (CEDI), a hybrid method of supported nanoparticle synthesis which combines the advantages of electrostatic adsorption—small particle size and tight size distributions—with the simplicity of incipient wetness impregnation, is demonstrated for four different metals (Pt, Pd, Co, and Ni) at multiple metal loadings over a common silica support. CEDI is achieved by basifying the impregnating solution sufficiently to charge the silica surface at the condition of incipient wetness. The electrostatic interactions induced between cationic ammine metal precursors and the deprotonated, negatively charged support result in smaller nanoparticles with tighter size distribution in comparison to those for incipient wetness impregnation (or dry impregnation, DI) with no pH adjustment. The method works best when the balancing ion of the precursor salt is hydroxide, such as platinum tetraammine hydroxide, (NH3)4Pt(OH)2. Using the corresponding chloride salts with CEDI results in ...

Keywords: nanoparticle synthesis; incipient wetness; impregnation; wetness impregnation; electrostatic adsorption

Journal Title: ACS Catalysis
Year Published: 2018

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