机译:通过最新一代的表面多孔颗粒在超高效液相色谱中,特别强调手性分离领域的新前沿和尖端应用
Department of Chemistry and Pharmaceutical Sciences University of Ferrara;
Department of Chemistry and Pharmaceutical Sciences University of Ferrara;
Department of Drug Chemistry and Technology “Sapienza” University of Rome;
Department of Drug Chemistry and Technology “Sapienza” University of Rome;
Department of Chemistry and Pharmaceutical Sciences University of Ferrara;
Department of Chemistry and Pharmaceutical Sciences University of Ferrara;
Department of Chemistry and Pharmaceutical Sciences University of Ferrara;
Department of Chemistry and Pharmaceutical Sciences University of Ferrara;
Department of Chemistry and Pharmaceutical Sciences University of Ferrara;
Superficially porous particles (SPPs); Sub-2 μm SPPs; 2.0 μm chiral SPPs; Highly ordered radially oriented mesopore SPPs; Highly efficient ultrafast (chiral) separations;
机译:通过最新一代的表面多孔颗粒在超高效液相色谱中,特别强调手性分离领域的新前沿和尖端应用
机译:进一步证明了基于多糖的手性选择剂与表面多孔二氧化硅颗粒的结合作为高效手性固定相在高效液相色谱中分离对映异构体的有效性
机译:超临界流体色谱法和高效液相色谱法中基于过度多孔粒子万古霉素的手性固定相的映对性能。 精神活性物质适用性
机译:HPLC在手性固定相上进行色谱手性分离:以4-甲基苯甲酸纤维素微珠为手性固定相,通过高效液相色谱手性分离某些外消旋体
机译:毛细管色谱柱中填充的1.7 µm和1.1 µm表面多孔颗粒的合成,物理表征和色谱性能
机译:快速高效液相色谱分离用于使用熔融核心硅胶颗粒的蛋白质组学应用
机译:使用熔融芯的蛋白质组学应用的快速高效液相色谱分离?二氧化硅颗粒