1.
THE ELECTRONIC STRUCTURES AND BIOLOGICAL? ACTIVITIES OF METHOMYL′S CIS? ?AND TRANS?ISOMERS
灭多威顺、反异构体的电子结构和生物活性
2.
Determination of Trans-and Cis-resveratrol and Piceid from Polygonum Cuspidatum and Vitis Amurensis by HPLC-ESI-MS;
液—质联用检测虎仗和野生山葡萄中白藜芦醇及糖苷顺、反异构体研究
3.
Separation and detection of cis and trans-isomers of propiconazole by chromatography
色谱法分离与检测丙环唑顺反异构体
4.
A NEW METHOD OF DETERMINING THE CONFIGURATION OF GEOMETRICAL CIS,TRANS-ISOMERS OF COMPLEXES IN SOLUTION
确定溶液配合物顺反异构体构型的新方法
5.
Determination of Cis-trans Isomers of Dialkyl 1.2-cyclohcxanedicarboxylate
1.2-环己二甲酸二烷基酯的顺反异构体的测定
6.
The racemic purity of cis- and trans-DCCA was 91.4% and 93.0%, respectively.
顺、反式二氯菊酸几何异构体含量分别为91.4%、93.0%。
7.
Study on Syn-and Anti-perillartine by NMR;
利用NMR技术对紫苏葶顺反异构体的研究
8.
CIS /TRANS ISOMERIC BONDING PARAMETER TOPOLOGICAL INDEX AND THEIR APPLICATION IN CORRELTION WITH THE PROPERTIES OF CIS /TRANS ISOMERS
顺反异构键参数拓扑指数及其在相关顺反异构分子性质中的应用
9.
Analysis of cis-and trans-lsomers of Perfumes by Cross-linking Glass Capillary Chromatographic Column
交联玻璃毛细管柱气相色谱分析香料顺反异构体
10.
The amino cyclohexylcarbinols(9) derived from the fused isxoazolidine(8) were a mixture of cis and trans isomers.
从稠合的四氢异?0唑(8)所得到的氨基环已基甲醇(9)则是顺式和反式异构体的混合物。
11.
The cis-trans isomerization reaction has been shown to be a first order reaction with an activation energy of 19 kcal/mole.
顺-反异构化反应系属一极反应,反应活化能为19千卡/克分子。
12.
At the photostationary state the quantities of cis isomers are about 92%.
在光稳定态 ,顺式异构体的量约为 92 %。
13.
A Facile Synthesis of cis, trans-Dihydroxy dibenzo-18-crown-6
顺、反异构的二羟基二苯并-18-冠-6的方便合成
14.
Studies on the Effect of Phosphorylation on the Peptidyl-prolyl Imide Bond Cis/trans Isomerization
磷酸化对肽脯酰胺键顺反异构影响的研究
15.
Cis-trans Isomerization of Vinylenes in PPVs and the Subsequent Change of Physical Properties
PPV中双键顺反异构过程及衍生的物理性质变化
16.
Preparation and Photoisomerism of Cinepazide Maleate
马来酸桂哌齐特的制备及其光致顺反异构研究
17.
Photoisomerization Mechanism of the Trans-cis Azobenzene Sulphonate Derivatives
偶氮苯磺酸衍生物的光致顺反异构化机理
18.
In the second route and third route, the insertion of benzoylation can effectively protect the active methylol radical and may advantageously be employed to facilitate the separation of cis- and trans-forms of the intermediate.
“路线二”和“路线三”中用苯甲酯保护活泼羟基,并可以分离顺式和反式异构体。