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Literature DB >> 28696113

Confined Pyrolysis within Metal-Organic Frameworks To Form Uniform Ru₃ Clusters for Efficient Oxidation of Alcohols.

Shufang Ji¹, Yuanjun Chen¹, Qiang Fu², Yifeng Chen³, Juncai Dong⁴, Wenxing Chen¹, Zhi Li¹, Yu Wang⁵, Lin Gu⁶, Wei He³, Chen Chen¹, Qing Peng¹, Yu Huang^1,7, Xiangfeng Duan⁷, Dingsheng Wang¹, Claudia Draxl², Yadong Li¹.

Abstract

Here we report a novel approach to synthesize atomically dispersed uniform clusters via a cage-separated precursor preselection and pyrolysis strategy. To illustrate this strategy, well-defined Ru3(CO)12 was separated as a precursor by suitable molecular-scale cages of zeolitic imidazolate frameworks (ZIFs). After thermal treatment under confinement in the cages, uniform Ru3 clusters stabilized by nitrogen species (Ru3/CN) were obtained. Importantly, we found that Ru3/CN exhibits excellent catalytic activity (100% conversion), high chemoselectivity (100% for 2-aminobenzaldehyde), and significantly high turnover frequency (TOF) for oxidation of 2-aminobenzyl alcohol. The TOF of Ru3/CN (4320 h-1) is about 23 times higher than that of small-sized (ca. 2.5 nm) Ru particles (TOF = 184 h-1). This striking difference is attributed to a disparity in the interaction between Ru species and adsorbed reactants.

Entities: Chemical

Year: 2017 PMID： 28696113 DOI： 10.1021/jacs.7b05018

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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