Ionic liquids have negligibly low vapor pressure, high stability and polarity. They are regarded as green solvents. Enzymes, especially lipases, as well as whole-cell of microbe, are catalytically active in ionic liqu...Ionic liquids have negligibly low vapor pressure, high stability and polarity. They are regarded as green solvents. Enzymes, especially lipases, as well as whole-cell of microbe, are catalytically active in ionic liquids or aqueous-ionic liquid biphasic systems. Up to date, there have been many reports on enzyme-exhibited features and enzyme-mediated reactions in ionic liquids. In many cases, remarkable results with respect to yield, catalytic activity, stability and (enantio-, regio-) selectivity were obtained in ionic liquids in comparison with those observed in conventional media. Accordingly, ionic liquids provide new possibilities for the application of new type of solvent in biocatalytic reactions.展开更多
Multicolor luminescent rare-earth ion-doped Y2O3 nanocrystals (NCs) were prepared by a solvethermal method. The as-synthesized NCs yielded nanosheets, nanowires (NWs) and nanorods (NRs) with the increase of alka...Multicolor luminescent rare-earth ion-doped Y2O3 nanocrystals (NCs) were prepared by a solvethermal method. The as-synthesized NCs yielded nanosheets, nanowires (NWs) and nanorods (NRs) with the increase of alkali (NaOH) in oleic acid system. Moreover, Y203 nanowires with controllable size have also been obtained. After sintering, the PL intensity of Y2O3:Ln3+ nanocrystals increased with the changed morphology of the precursor, that is, Y(OH)3 nanocrystals. Both downconversion (red emission for Y2O3:Eu3+ and green emission for Y2O3:Tb3+) and upconversion (red emission for Y2O3:Yb/Er3+) luminescence of the as-prepared nanocrystals have been demonstrated in this work. We also found that the PL intensity of Y2O3:Ln3+ NCs dispersed in polar solvent was stronger than that in nonpolar solvent. Their up/downconversion fluorescence and controllable morphology might promise further fundamental research and biochemistry such as nanoscale optoelectronics, nanolasers, and ultrasensitive multicolor biolables.展开更多
基金the Natural Science Foundation of Guangdong Province (No. 020839).
文摘Ionic liquids have negligibly low vapor pressure, high stability and polarity. They are regarded as green solvents. Enzymes, especially lipases, as well as whole-cell of microbe, are catalytically active in ionic liquids or aqueous-ionic liquid biphasic systems. Up to date, there have been many reports on enzyme-exhibited features and enzyme-mediated reactions in ionic liquids. In many cases, remarkable results with respect to yield, catalytic activity, stability and (enantio-, regio-) selectivity were obtained in ionic liquids in comparison with those observed in conventional media. Accordingly, ionic liquids provide new possibilities for the application of new type of solvent in biocatalytic reactions.
文摘Multicolor luminescent rare-earth ion-doped Y2O3 nanocrystals (NCs) were prepared by a solvethermal method. The as-synthesized NCs yielded nanosheets, nanowires (NWs) and nanorods (NRs) with the increase of alkali (NaOH) in oleic acid system. Moreover, Y203 nanowires with controllable size have also been obtained. After sintering, the PL intensity of Y2O3:Ln3+ nanocrystals increased with the changed morphology of the precursor, that is, Y(OH)3 nanocrystals. Both downconversion (red emission for Y2O3:Eu3+ and green emission for Y2O3:Tb3+) and upconversion (red emission for Y2O3:Yb/Er3+) luminescence of the as-prepared nanocrystals have been demonstrated in this work. We also found that the PL intensity of Y2O3:Ln3+ NCs dispersed in polar solvent was stronger than that in nonpolar solvent. Their up/downconversion fluorescence and controllable morphology might promise further fundamental research and biochemistry such as nanoscale optoelectronics, nanolasers, and ultrasensitive multicolor biolables.
