第一部分有详述立体化学一章。
Part I is concluded by a detailed chapter on stereochemistry.
立体化学研究立体异构体以及不对称合成法。
Stereochemistry deals with stereoisomers and with asymmetric synthesis.
有关测定这类立体化学的影响因素的研究,也有报导。
A study to determine the factors influencing the stereochemical results has been reported.
环状化合物的立体化学在有机化学中起着十分重要的作用。
The important role of stereochemistry of cyclic systems in organic Chemistry has been well established.
本文简要地综述了基于连接表的手性中心和双键立体化学的描述方法。
The present paper reviews the methods used in connection table for the presentation of stereochemistry, particularly for the chiral carbons and double bonds.
潜在异构体,立体化学的识别,或潜在形成多晶型的信息因包含在内。
Information such as the potential for isomerism, the identification of stereochemistry, or the potential for forming polymorphs should also be included.
在手性催化反应中,手性配体是不对称诱导的手性源,控制着反应的立体化学过程。
As the chiral source of asymmetric induction, the chiral ligands control the procedure of stereochemistry in reaction.
对三个加成产物进行了X -线单晶结构解析,验证了产物的结构和相对立体化学。
Furthermore, X-ray single crystal structural analyses were performed for three adducts, whose structures and relative stereochemistry were confirmed.
尽管有机化学知识点多、抽象,初学者觉得难以掌握,尤其立体化学问题更让人头疼。
Organic chemistry is so abstract and full of a large number of knowledge that the beginners may find it hard to master, especially the stereochemistry.
轴不对称联芳香化合物具有独特的立体化学性质,从七十年代以来受到有机化学家的重视。
Because of its unique stereochemical properties, the axially dissymmetric biaryls have been studied with great interesting since 1970s.
决定氨基酸残基和碱基相互关系的结合几何图形表示为立体化学图,它表明了识别的特异性。
The binding geometry determined by interaction of the residues and bases in recognition area is indicated in the stereochemical chart.
另外,人们对影响反应生成的立体化学产物的参数(如溶剂、底物设计、固定化、定向进化等)有了进一步的了解。
Moreover, the parameters affected the stereochemical outcome of the reaction, such as solvent, substrate design, immobilization and directed evolution, were more understanding.
另外,人们对影响反应生成的立体化学产物的参数(如溶剂、底物设计、固定化、定向进化等)有了进一步的了解。
Moreover, the parameters affected the stereochemical outcome of the reaction, such as solvent, substrate design, immobilization and directed evolution, were more understanding.
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