Fe-MIL-101催化Paal-Knorr反应合成吡咯衍生物

以Fe-MIL-101为非均相催化剂,通过多种伯胺与2,5-二甲氧基四氢呋喃进行Paal-Knorr反应,高效合成相应的吡咯衍生物.在Fe-MIL-101结构中,裸露的Fe(Ⅲ)配位点作为催化活性中心参与吡咯衍生物的催化合成反应.同时Fe-MIL-101的高比表面积和大的孔尺寸确保了底物分子与催化活性中心的充分接触以及产物的自由脱离,从而促进了催化反应的快速进行.Fe-MIL-101在催化反应过程中具有很好的稳定性,多次循环使用后仍能表现出良好的催化性能.此外,该催化剂在伯胺(包括脂肪胺、芳香胺)与2,5-己二酮的Paal-Knorr缩合反应中也具有优异的催化性能.     

Matrix approaches to approximate solutions of variational inequalities in Hilbert spaces

A matrix approach to approximating solutions of variational inequalities in Hilbert spaces is introduced. This approach uses two matrices: one for iteration process and the other for regularization. Ergodicity and convergence (both weak and strong) are studied. Our methods combine new or well-known iterative methods (such as the original Mann’s method) with regularized processes involved regular matrices in the sense of Toeplitz.     

Sensing Properties of NH2-MIL-101 Series for Specific Amino Acids via Turn-On Fluorescence

Metal–organic frameworks (MOFs) have been demonstrated to be desired candidates for sensing definite species owing to their tunable composition, framework structure and functionality. In this work, the NH₂-MIL-101 series was utilized for sensing specific amino acids. The results show that cysteine (Cys) can significantly enhance the fluorescence emission of NH₂-MIL-101-Fe suspended in water, while NH₂-MIL-101-Al exhibits the ability to sense lysine (Lys), arginine (Arg) and histidine (His) in aqueous media via turn-on fluorescence emission. Titration experiments ensure that NH₂-MIL-101-Fe and NH₂-MIL-101-Al can selectively and quantitatively detect these amino acids. The sensing mechanism was examined and discussed. The results of this study show that the metal centers in MOFs are crucial for sensing specific amino acids.