†MOE Key Laboratory of Bioinorganic and Synthetic Chemistry, School of Chemistry and Chemical Engineering, Sun Yat-Sen University, Guangzhou 510275, China.
‡Van't Hoff Institute for Molecular Sciences, University of Amsterdam, Science Park 904, 1098 XH Amsterdam, The Netherlands.
J Am Chem Soc. 2015 Jun 10;137(22):7217-23. doi: 10.1021/jacs.5b03727. Epub 2015 May 26.
Porous materials combining high hydrophobicity, large surface area, as well as large and uniform pore size are very useful but rare. The nanoporous zeolitic metal azolate framework, RHO-[Zn(eim)2] (MAF-6, Heim = 2-ethylimidazole), is an attractive candidate but thought to be unobtainable/unstable. In this work, the supramolecular isomerism of [Zn(eim)2] is thoroughly studied using a rapid solution mixing reaction of Zn(NH3)42 and Heim, which enables MAF-6 with high crystallinity, purity, and thermal/chemical stabilities to be synthesized in large quantity. Gas and vapor adsorption isotherms, gas chromatography, and water contact angle measurements, as well as transient breakthrough and molecular dynamics simulations show that MAF-6 exhibits large surface area (langmuir surface area 1695 m(2) g(-1)), pore volume (0.61 cm(3) g(-1)), pore size (d = 18.4 Å), and aperture size (d = 7.6 Å) with high hydrophobicity on both the internal pore and external crystal surfaces. It can barely adsorb water or be wetted by water (contact angle 143°) but readily adsorb large amounts of organic molecules including methanol, ethanol, mesitylene, adamantane, C6-C10 hydrocarbons, xylene isomers, and saturated/unsaturated analogues such as benzene/cyclohexene/cyclohexane or styrene/ethylbenzene. It can also separate these organic molecules from each other as well as from water by preferential adsorption/retention of those having higher hydrophobicity, lipophilicity, or oil/water partition coefficient. These properties are very different with other porous materials such as SOD-[Zn(mim)2] (Hmim = 2-methylimidazole, MAF-4/ZIF-8) with a hydrophobic pore surface but a hydrophilic crystal surface and small aperture size.
多孔材料结合高疏水性、大表面积以及大而均匀的孔径非常有用,但却很少见。纳米多孔沸石金属氮杂环丁烷骨架 RHO-[Zn(eim)2](MAF-6,Heim=2-乙基咪唑)是一种很有吸引力的候选材料,但被认为是无法获得/不稳定的。在这项工作中,通过Zn(NH3)42 和 Heim 的快速溶液混合反应,彻底研究了[Zn(eim)2]的超分子异构现象,该反应能够大量合成具有高结晶度、纯度和热/化学稳定性的 MAF-6。气体和蒸气吸附等温线、气相色谱、水接触角测量以及瞬态穿透和分子动力学模拟表明,MAF-6 具有大的表面积(朗缪尔表面积 1695 m2/g)、孔体积(0.61 cm3/g)、孔径(d = 18.4 Å)和孔径(d = 7.6 Å),并且内部孔和外部晶体表面都具有高疏水性。它几乎不吸附水或被水润湿(接触角 143°),但很容易吸附大量的有机分子,包括甲醇、乙醇、均三甲苯、金刚烷、C6-C10 烃、二甲苯异构体以及饱和/不饱和类似物,如苯/环己烯/环己烷或苯乙烯/乙苯。它还可以通过优先吸附/保留那些具有更高疏水性、亲脂性或油/水分配系数的有机分子,将这些有机分子彼此以及与水分离。这些性质与其他多孔材料(如 SOD-[Zn(mim)2](Hmim=2-甲基咪唑,MAF-4/ZIF-8))非常不同,后者具有疏水性孔表面和亲水性晶体表面以及较小的孔径。
