Jiang Shan, Cox Harrison J, Papaioannou Evangelos I, Tang Chenyang, Liu Huiyu, Murdoch Billy J, Gibson Emma K, Metcalfe Ian S, Evans John S O, Beaumont Simon K
Department of Chemistry, Science Site, Durham University, South Road, Durham DH1 3LE, UK.
School of Engineering, Newcastle University, Newcastle-upon-Tyne, NE1 7RU, UK.
Nanoscale. 2019 Aug 8;11(31):14929-14936. doi: 10.1039/c9nr04553h.
Porous Organic Cages (POCs) are an emerging class of self-assembling, porous materials with novel properties. They offer a key advantage over other porous materials in permitting facile solution processing and re-assembly. The combination of POCs with metal nanoparticles (NPs) unlocks applications in the area of catalysis. In this context, POCs can function as both the template of ultra-small NPs and a porous, but reprocessable, heterogeneous catalyst support. Here, we demonstrate the synthesis of ultra-small Pd NPs with an imine linked POC known as 'CC3', and show that hydrogen gas can be used to form metallic NPs at ∼200 °C without the reduction of the organic cage (and the accompanying, unwanted loss of crystallinity). The resulting materials are characterized using a range of techniques (including powder diffraction, scanning transmission electron microscopy and synchrotron X-ray absorption spectroscopy) and shown to be recrystallizable following dissolution in organic solvent. Their catalytic efficacy is demonstrated using the widely studied carbon monoxide oxidation reaction. This demonstration paves the way for using ultra-small NPs synthesized with POCs as solution-processable, self-assembling porous catalytic materials.
多孔有机笼(POCs)是一类新兴的具有新颖性质的自组装多孔材料。与其他多孔材料相比,它们具有一个关键优势,即便于溶液加工和重新组装。POCs与金属纳米颗粒(NPs)的结合为催化领域开辟了新的应用。在此背景下,POCs既可以作为超小NPs的模板,又可以作为一种多孔但可再加工的非均相催化剂载体。在这里,我们展示了用一种名为“CC3”的亚胺连接POC合成超小钯纳米颗粒,并表明在约200°C下,氢气可用于形成金属纳米颗粒,而不会使有机笼还原(以及随之而来的不必要的结晶度损失)。使用一系列技术(包括粉末衍射、扫描透射电子显微镜和同步加速器X射线吸收光谱)对所得材料进行了表征,并表明它们在溶解于有机溶剂后可重结晶。使用广泛研究的一氧化碳氧化反应证明了它们的催化效果。这一成果为将用POCs合成的超小NPs用作可溶液加工的自组装多孔催化材料铺平了道路。
