Zhong Xiahua, Lu Ying, Luo Fang, Liu Yiwei, Li Xiaohui, Liu Shuxia
Key Laboratory of Polyoxometalate Science of Ministry of Education, Department of Chemistry, Northeast Normal University, Renmin Street No. 5268, Changchun, Jilin, 130024, P. R. China.
Chemistry. 2018 Feb 26;24(12):3045-3051. doi: 10.1002/chem.201705677. Epub 2018 Feb 1.
Crystalline POM@MOFs hybrids are very promising for catalysis, due to catalytically active polyoxometalates (POMs) dispersed at the molecular level, and enhanced stability of both POMs and metal-organic frameworks (MOFs). Herein, PW was encapsulated into MOF HKUST-1 through a facile liquid-assisted grinding method, and the obtained [Cu (BTC) (H O) ] [HPW O ] (BTC=1,2,3-benzenetricarboxylic acid) nanocrystals (NENU-3N) were applied as catalysts in the degradation of phenol. It is the first time that liquid-assisted grinding was applied in the preparation of nanocrystalline POM@MOFs hybrids. The NENU-3N nanocrystals catalyzed the degradation of phenol on the basis of both MOF and POM catalytic activities, representing the first example of POM@MOFs catalyst boosting catalytic oxidation reaction with double actives sites. Strikingly, up to 97 % conversion and 88 % mineralization have successfully realized by perfect cooperative catalysis between POMs and Cu nodes in MOFs at 35 °C. Moreover, comparative experiments suggest that the reduced size of NENU-3N catalyst is beneficial for improving its catalytic performance. Finally, the nanocrystalline NENU-3N catalyst possesses high stability, which can be easily recovered and reused 5 times without loss of catalytic activity.
晶态聚金属氧酸盐@金属有机框架(POM@MOFs)杂化物在催化领域极具潜力,这是因为具有催化活性的多金属氧酸盐(POMs)在分子水平上得以分散,同时POMs和金属有机框架(MOFs)的稳定性也得到了增强。在此,通过简便的液相助磨法将PW封装到MOF HKUST-1中,所得到的[Cu (BTC) (H₂O) ] [HPW₁₂O₄₀](BTC = 1,2,3-苯三甲酸)纳米晶体(NENU-3N)被用作苯酚降解的催化剂。这是液相助磨法首次应用于制备纳米晶态POM@MOFs杂化物。NENU-3N纳米晶体基于MOF和POM的催化活性催化苯酚降解,这代表了POM@MOFs催化剂通过双活性位点促进催化氧化反应的首个实例。引人注目的是,在35℃下,POMs与MOFs中的Cu节点之间通过完美的协同催化成功实现了高达97%的转化率和88%的矿化率。此外,对比实验表明NENU-3N催化剂尺寸的减小有利于提高其催化性能。最后,纳米晶态NENU-3N催化剂具有高稳定性,能够轻松回收并重复使用5次而不损失催化活性。
