用非离子微乳液制备胶体铂/钯合金颗粒:表征和催化行为

Raymonde Touroude , Paule Girard , Gilbert Maire , Jerzy Kizling , Magali Boutonnet-Kizling , Per Stenius
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引用次数: 59

摘要

将H2PtCl6和PdCl2溶解在水、十六烷和五乙二醇十二烷基醚组成的微乳中,在适宜温度下,用肼还原法制备了铂和钯的双金属颗粒。颗粒沉积在Al2O3上。原子比Pt:Pd = 35:65的Pt/Pd颗粒经扫描透射电子显微镜和扩展x射线吸附细观结构检测表明,该颗粒为真正的Pt/Pd合金。间接证据表明,Pd含量仅为4%的颗粒为合金。所述颗粒直径为10 ~ 100nm;有证据表明,它们是由直径在2-5纳米范围内的颗粒聚集形成的。微乳法制备的Pt/Pd/Al2O3催化剂的催化性能与常规浸渍法制备的催化剂相似。低Pd含量催化剂在2-甲基戊烷异构化和甲基环戊烷氢解反应中具有与高分散Pt催化剂(或纯Pd催化剂)相同的选择性。2-甲基戊烷的催化裂化表明,当Pd浓度达到60%时,颗粒表面表现为Pt表面。即使Pd浓度低至4%,己烷的异构化仍以环机制为主;对于这些极低浓度的钯,甲基环戊烷的氢解与非常小的铂颗粒的氢解相同。结果表明,即使在体积Pd浓度低至4%的情况下,Pd也以由Pd和一些高度分散的pt组成的方式富集在颗粒表面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preparation of colloidal platinum/palladium alloy particles from non-ionic microemulsions: Characterization and catalytic behaviour

Bimetallic particles of platinum and palladium have been prepared by reduction, with hydrazine at arabient temperature, of H2PtCl6 and PdCl2 dissolved in microemulsions consisting of water, hexadecane and pentacthylene glycol dodecyl ether. The particles were deposited onto Al2O3. Examination by scanning transmission electron microscopy and extended X-ray adsorption fine structure measurements of particles with atomic ratio Pt:Pd = 35:65 showed that the particles are true Pt/Pd alloys. Indirect evidence was also obtained that particles containing only 4% Pd are alloys. The diameter of the particles ranges from 10 to 100 nm; there is evidence that they are formed by aggregation of particles in the diameter range 2–5 nm.

The catalytic properties of the Pt/Pd/Al2O3 catalysts prepared from microemulsions were similar to those of catalysts prepared by conventional impregnation. Catalysts with low Pd content had the same selectivity in the isomerization of 2-methylpentane and hydrogenolysis of methylcyclopentane as a highly dispersed Pt catalyst (or a pure Pd catalyst). The catalytic cracking of 2-methylpentane indicates that the particle surfaces behave as Pt surfaces up to a Pd concentration of 60% in the particles. Isomerization of hexanes is dominated by the cyclic mechanism even at Pd concentrations as low as 4%; for these very low Pd concentrations hydrogenolysis of methylcyclopentane is the same as observed for very small Pt particles. It is concluded that Pd is enriched in the particle surfaces in such a way that they consist of Pd and some highly dispersed Pt. even at bulk Pd concentrations as low is 4%.

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