Metal-organic frameworks constructed from Zr usually possess excellent chemical and physical stability. Therefore, they have become attractive platforms in various fields. In this work, two families of hybrid materials based on ZrSQU have been designed and synthesized, named Im@ZrSQU and Cu@ZrSQU, respectively.
View Article and Find Full Text PDFThe anhydrous proton conductivity of Im@IEF-11 resulting from the integration of imidazole and porous IEF-11 has been investigated, and the highest proton conductive value can reach up to 7.64 × 10 S cm. Furthermore, IEF-11 is also developed to reduce CO due to its reasonable structure and suitable energy band, and its CO formation rate is 31.
View Article and Find Full Text PDFThe photoreduction deposition method is employed to fabricate a family of silver nanoparticle (Ag NP)-modified polyoxometalate-based metal-organic framework () photocatalysts, named . The title photocatalysts, , can be used for the photocatalytic reduction of CO and are observed to efficiently reduce CO into CO, in which the highest reduction rate is 22.28 μmol g h, 3 times greater than that of .
View Article and Find Full Text PDFMetal-organic frameworks (MOFs) provide an ideal platform for loading various guests owing to their available space, and can be developed as a class of multifunctional materials. Herein, we cover the design and synthesis of two kinds of exchanged frameworks with multifunctional applications based on HImDC and In(NO)·2HO through guest exchange inside the framework. The guest ammonium ion (NH) and [Ru(2,2'-bipyridine)] (Rubpy) are selected to exchange the dimethylammonium cation (MeNH) encapsulated within , giving birth to two kinds of new MOFs, named and respectively.
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