Microwave-assisted synthesis of mesoporous metal-organic framework NH2-MIL-101(Al)

被引:20
作者
Isaeva, V. I. [1 ]
Tarasov, A. L. [1 ]
Starannikova, L. E. [2 ]
Yampol'skii, Yu. P. [2 ]
Alent'ev, A. Yu. [2 ]
Kustov, L. M. [1 ,3 ]
机构
[1] Russian Acad Sci, ND Zelinsky Inst Organ Chem, 47 Leninsky Prosp, Moscow 119991, Russia
[2] Russian Acad Sci, AV Topchiev Inst Petrochem Synth, Moscow 119991, Russia
[3] Moscow MV Lomonosov State Univ, Chem Dept, Moscow 119992, Russia
来源
RUSSIAN CHEMICAL BULLETIN | 2015年 / 64卷 / 12期
基金
俄罗斯科学基金会;
关键词
metal-organic frameworks; mesopores; nanoparticles; morphology; microwave activation; mixed matrix membranes; nanofiller; gas permeability; MIXED MATRIX MEMBRANES; GAS SEPARATION; DESIGN;
D O I
10.1007/s11172-015-1227-5
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
The possibility of formation of the mixed matrix membranes NH2-MIL-101(Al) under the conditions of microwave activation of the reaction mixture at atmospheric pressure is studied. Microwave irradiation affects the morphology and crystallite size and significantly shortens the synthesis time (from tens of hours to 10-30 min). The obtained samples of NH2-MIL-101(Al) with a crystallite size of 100 nm were used as nanofillers for polymer matrix based on the PIM-1 polymer with intrinsic microporosity for the preparation of hybrid membrane materials. Gas permeability for a series of gases was measured on the synthesized membranes.
引用
收藏
页码:2791 / 2795
页数:5
相关论文
共 24 条
[1]   Gas permeation parameters of mixed matrix membranes based on the polymer of intrinsic microporosity PIM-1 and the zeolitic imidazolate framework ZIF-8 [J].
Bushell, Alexandra F. ;
Attfield, Martin P. ;
Mason, Christopher R. ;
Budd, Peter M. ;
Yampolskii, Yuri ;
Starannikova, Ludmila ;
Rebrov, Alexander ;
Bazzarelli, Fabio ;
Bernardo, Paola ;
Jansen, Johannes Carolus ;
Lanc, Marek ;
Friess, Karel ;
Shantarovich, Victor ;
Gustov, Vadim ;
Isaeva, Vera .
JOURNAL OF MEMBRANE SCIENCE, 2013, 427 :48-62
[2]   Nanoscale metal-organic materials [J].
Carne, Arnau ;
Carbonell, Carlos ;
Imaz, Inhar ;
Maspoch, Daniel .
CHEMICAL SOCIETY REVIEWS, 2011, 40 (01) :291-305
[3]   Highly porous and stable metal-organic frameworks: Structure design and sorption properties [J].
Eddaoudi, M ;
Li, HL ;
Yaghi, OM .
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2000, 122 (07) :1391-1397
[4]   Systematic design of pore size and functionality in isoreticular MOFs and their application in methane storage [J].
Eddaoudi, M ;
Kim, J ;
Rosi, N ;
Vodak, D ;
Wachter, J ;
O'Keeffe, M ;
Yaghi, OM .
SCIENCE, 2002, 295 (5554) :469-472
[5]   Hybrid porous solids:: past, present, future [J].
Ferey, Gerard .
CHEMICAL SOCIETY REVIEWS, 2008, 37 (01) :191-214
[6]   Synthetic routes toward MOF nanomorphologies [J].
Fluegel, Erik A. ;
Ranft, Annekathrin ;
Haase, Frederik ;
Lotsch, Bettina V. .
JOURNAL OF MATERIALS CHEMISTRY, 2012, 22 (20) :10119-10133
[7]   Synthesis of a Metal-Organic Framework Material, Iron Terephthalate, by Ultrasound, Microwave, and Conventional Electric Heating: A Kinetic Study [J].
Haque, Enamul ;
Khan, Nazmul Abedin ;
Park, Jung Hwa ;
Jhung, Sung Hwa .
CHEMISTRY-A EUROPEAN JOURNAL, 2010, 16 (03) :1046-1052
[8]   Metal-Organic Frameworks in Biomedicine [J].
Horcajada, Patricia ;
Gref, Ruxandra ;
Baati, Tarek ;
Allan, Phoebe K. ;
Maurin, Guillaume ;
Couvreur, Patrick ;
Ferey, Gerard ;
Morris, Russell E. ;
Serre, Christian .
CHEMICAL REVIEWS, 2012, 112 (02) :1232-1268
[9]   A SEM study of nanosized metal films and metal nanoparticles obtained by magnetron sputtering [J].
Kashin, A. S. ;
Ananikov, V. P. .
RUSSIAN CHEMICAL BULLETIN, 2011, 60 (12) :2602-2607
[10]   Microwave-Assisted Synthesis of Metal-Organic Frameworks [J].
Klinowski, Jacek ;
Almeida Paz, Filipe A. ;
Silva, Patricia ;
Rocha, Joao .
DALTON TRANSACTIONS, 2011, 40 (02) :321-330
123