1.
Catalytic Dechlorination of Chlorinated Aromatic Hydrocarbon in Water by Pd/Fe Bimetallic System;
钯/铁双金属体系对氯代芳烃的催化脱氯研究
2.
Suzuki Reaction of Aryl Chlorides Catalyzed by Novel P, N Bidentate Ligands/Palladium
新型磷、氮双齿配体/钯催化的氯代芳烃Suzuki反应
3.
Study of the Nickel Complex-Catalyzed Suzuki Cross-Coupling Reaction of Aryl Chlorides and Related Reactions;
镍配合物催化氯代芳烃的Suzuki交叉偶联反应及相关反应研究
4.
Studies on Degradation of Chlorination Aromatic Hydrocarbon in Wastewater by Ultrasound Cooperated with Nanoscale Iron;
超声波/纳米铁降解氯代芳香烃的研究
5.
On the contrary to the vinyl and aryl chlorides, the oxidative addition reaction of zerovalent palladium to chloro-substituted phosphaalkenes proceeded smoothly under mild conditions.
与氯代烯烃或芳烃相反,氯代膦烯与零价钯的氧化加成反应可以在温和条件下进行。
6.
The main pollutants are benzene serial materials, polycyclic aromatic hydrocarion, organochlorine insecticide, PCB and volatile halogenated hydrocarbon.
经过筛选确定苯系物、多环芳烃、有机氯农药、多氯联苯和挥发性卤代烃为主要污染物。
7.
Regio and Stereoselective Reactin of 1 Acyl 4 chlorocyclohexane with Substituted Aromatics
1-酰基-4-氯环己烷与取代芳烃的区域与立体选择性反应(英文)
8.
Studies of Thermodynamic Properties of Binary Mixtures of Chloralkane and Aromatic Compounds
氯代烷烃与芳香族化合物二元体系的热力学性质研究
9.
Quantitative Structure-Activity Relationships of Joint Toxicity of 3,4-Dichloroaniline and Substituted Aromatics
3,4-二氯苯胺与取代芳烃联合毒性的定量构效关系研究
10.
hydrofluorocarbon - HFC: A substitute for chlorofluorocarbons.
氢氯烃(简写为HFC):一种氟氯烃的替代物。
11.
hydrochlorofluorocarbon - HCFC:A substitute for chlorofluorocarbons.
氢氯氟烃(简写为HCFC):一种氟氯烃的替代物。
12.
Studies on the Heck and Suzuki Coupling Reactions of Aryl Halides;
卤代芳烃的Heck和Suzuki偶联反应研究
13.
Palladium(II)-Catalyzed Ullmann Reaction of Aryl Iodides
Pd(II)催化碘代芳烃的Ullmann偶联反应
14.
Quantitative structure-property relationship of halogenated arenes
卤代芳烃的定量结构与性质相关性(QSPR)
15.
QSAR Study on the Acute Toxicities of Substituted Aromatic Hydrocarbons to Pimephales Promelas
取代芳烃对呆鲦鱼急性毒性的QSAR研究
16.
The main way for the reductive dechlorination of chloralkane is the direct transfer of electron.
电子直接转移是氯代烷烃还原脱氯的主要途径。
17.
Study on Chloration and Prechloration Conditions and the Formation of Alohydrocarbon
氯化及预氯化反应条件与卤代烃生成研究
18.
The Reaction of Diethylα-chlorohydrocarbonradical phosphonate with Aldehydes and Ketones;
α-氯代烃基膦酸二乙酯与醛酮的反应