化学
催化作用
多相催化
均相催化
电泳剂
纳米颗粒
铂纳米粒子
树枝状大分子
组合化学
铂金
纳米技术
有机化学
材料科学
作者
Cole A. Witham,Wenyu Huang,Chia‐Kuang Tsung,John N. Kuhn,Gábor A. Somorjai,F. Dean Toste
出处
期刊:Nature Chemistry
[Nature Portfolio]
日期:2009-11-29
卷期号:2 (1): 36-41
被引量:284
摘要
A continuing goal in catalysis is to unite the advantages of homogeneous and heterogeneous catalytic processes. To this end, nanoparticles represent a new frontier in heterogeneous catalysis, where this unification can also be supplemented by the ability to obtain new or divergent reactivity and selectivity. We report a novel method for applying heterogeneous catalysts to known homogeneous catalytic reactions through the design and synthesis of electrophilic platinum nanoparticles. These nanoparticles are selectively oxidized by the hypervalent iodine species PhICl2, and catalyse a range of π-bond activation reactions previously only catalysed through homogeneous processes. Multiple experimental methods are used to unambiguously verify the heterogeneity of the catalytic process. The discovery of treatments for nanoparticles that induce the desired homogeneous catalytic activity should lead to the further development of reactions previously inaccessible in heterogeneous catalysis. Furthermore, a size and capping agent study revealed that Pt PAMAM dendrimer-capped nanoparticles demonstrate superior activity and recyclability compared with larger, polymer-capped analogues. Combining the benefits of homogeneous and heterogeneous processes may lead to important advances in catalysis. This has now been achieved using selectively oxidized and supported electrophilic platinum nanoparticles that catalyse a range of π-bond activation reactions previously only catalysed homogeneously.
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