Begum Salma, Wang Zhaoyang, Donnadio Anna, Costantino Ferdinando, Casciola Mario, Valiullin Rustem, Chmelik Christian, Bertmer Marko, Kärger Jörg, Haase Jürgen, Krautscheid Harald
Fakultät für Chemie und Mineralogie, Universität Leipzig, Johannisallee 29, 04103 Leipzig (Germany).
Chemistry. 2014 Jul 14;20(29):8862-6. doi: 10.1002/chem.201402886. Epub 2014 Jun 17.
The development of water-mediated proton-conducting materials operating above 100 °C remains challenging because the extended structures of existing materials usually deteriorate at high temperatures. A new triazolyl phosphonate metal-organic framework (MOF) [La3L4(H2O)6]Cl⋅x H2O (1, L(2-) = 4-(4H-1,2,4-triazol-4-yl)phenyl phosphonate) with highly hydrophilic 1D channels was synthesized hydrothermally. Compound 1 is an example of a phosphonate MOF with large regular pores with 1.9 nm in diameter. It forms a water-stable, porous structure that can be reversibly hydrated and dehydrated. The proton-conducting properties of 1 were investigated by impedance spectroscopy. Magic-angle spinning (MAS) and pulse field gradient (PFG) NMR spectroscopies confirm the dynamic nature of the incorporated water molecules. The diffusivities, determined by PFG NMR and IR microscopy, were found to be close to that of liquid water. This porous framework accomplishes the challenges of water stability and proton conduction even at 110 °C. The conductivity in 1 is proposed to occur by the vehicle mechanism.
开发在100°C以上运行的水介导质子传导材料仍然具有挑战性,因为现有材料的扩展结构通常在高温下会恶化。通过水热法合成了一种具有高度亲水性一维通道的新型三唑基膦酸金属有机框架(MOF)[La3L4(H2O)6]Cl⋅x H2O(1,L(2-) = 4-(4H-1,2,4-三唑-4-基)苯基膦酸)。化合物1是一种膦酸MOF的例子,其具有直径为1.9 nm的大规则孔。它形成了一种水稳定的多孔结构,该结构可以可逆地水合和脱水。通过阻抗谱研究了1的质子传导性能。魔角旋转(MAS)和脉冲场梯度(PFG)核磁共振光谱证实了掺入水分子的动态性质。通过PFG NMR和红外显微镜测定的扩散率与液态水的扩散率相近。即使在110°C下,这种多孔框架也克服了水稳定性和质子传导方面的挑战。1中的传导率被认为是通过载体机制发生的。
