1) chiral recognition ability
手性识别能力
2) chiral discrimination
手性识别
1.
Mass spectrometric (MS) technique, including chemical ionization (CI), fast atom bombardment (FAB), and eletrospray ionization (ESI) has been applied to chiral discrimination and analysis.
介绍了质谱技术,包括传统的化学电离质谱 (CI MS)以及快原子轰击质谱 (FAB MS)、电喷雾质谱(ESI MS)等软电离质谱技术在手性识别和分析方面的研究进展,对质谱技术研究手性识别的原理、方法、特点、局限性及有待进一步发展的方向进行了总结,引用文献 35篇。
2.
In these modelings, the intermolecular interactions between chiral selector and enantiomers were calculated with quantum mechanics, molecular mechanics and molecular dynamics and the various molecular modelings have been established by X ray crystallography, nuclear magnetic resonance and computer simulation in order to study chiral discrimination mechanism in the process of separation of.
介绍了近十几年来在色谱手性识别机理研究中的分子模型。
3.
Chiral discriminations of N-[4-(1-pyrene)butyroyl]-D,L-phenylalanine (PPs) and dansyl-D,L-phenylalanine (DPs) by 2,2 -ditellurobis(2-deoxy-β-cyclodextrin) (2-TeCD) have been investigated using UV-Vis and fluorescence titration spectroscopy as well as molecular modeling simulation.
利用紫外-可见(UV-vis)吸收光谱、荧光发射光谱、非线性最小二乘法拟合和分子模型模拟,对2- TeCD与PPs和DPs的手性识别及机理进行了系统的研究。
3) chiral recognition
手性识别
1.
The progress on mechanism of molecular imprinted chiral recognition and applied in chromatography;
分子印迹手性识别机理及在色谱分离中的应用
2.
Electrospray ionization mass spectrometry in chiral recognition: its applications;
电喷雾质谱技术在手性识别中的应用
3.
Simultaneous fluorescence determination of D,L-tryptophan enantiomer by chiral recognition of β-cyclodextrin;
D,L-色氨酸对映体的环糊精手性识别荧光定量分析
4) recognition capability
识别能力
1.
The traditional opinion,which holds that minors don t have the civil liability ability because of their lack of the recognition capability,is notcompletely right.
未成年人不具有“识别能力”就不具有民事责任能力的传统观点是有缺陷的;作为自然人承担民事责任的地位或资格的民事责任能力,其有无的判断应采“出生主义”标准,因此未成年人都是具有民事责任能力的;承认未成年人具有民事责任能力有着重要的意义。
5) classify ability
识别能力
1.
Face feature vector equilibration based on classify ability
基于识别能力的人脸特征向量均衡
补充资料:感知和识别能力缺失症
感知和识别能力缺失症
感知和识别能力缺失症见“失认症”(agnosia)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条