1) Gold chloride, hydrochloride, trihydrate
四氯化金酸三水合物
2) Auric chloride, hydrochloride, trihydrate
四氯化金酸三水合物
3) tetrachloroethane
四氯乙烷
1.
Influential factors of the catalysts in trichloroethylene preparation by dehydrochlorination from tetrachloroethane;
四氯乙烷脱氯化氢制三氯乙烯所用催化剂的影响因素
2.
Synthesis of Bis-(hexahydropyrimidines)through Reaction of Diaminoalkanes with Sym-tetrachloroethane;
利用四氯乙烷胺化反应合成联氢化嘧啶衍生物的研究Ⅱ
3.
Polyester nanofiber can be prepared by electrospinning process from PET chips separately dissolving in three kinds of solvents,namely,the mixture solvent of phenol and tetrachloroethane,trifluoroacetic acid and the mixture solvent of trifluoroace- tic acid and dichlormethane.
利用静电纺丝法制备聚酯(PET)纳米纤维,选择苯酚和四氯乙烷,三氟乙酸,三氟乙酸和二氯甲烷3种溶剂分别溶解PET切片进行静电纺丝,通过扫描电子显微镜(SEM)对纤维表面形态进行观察,结果表明:三氟乙酸和二氯甲烷混合溶剂溶解PET制备的电纺纤维较好。
4) perchloroethylene
四氯乙烯
1.
Single and joint toxicity of perchloroethylene and cadmium on Ctenopharyngodon idellus.;
四氯乙烯和镉对草鱼的单一与联合毒性效应
2.
Theoretical Study on the Addition Reaction of Trichloroethylene and Perchloroethylene with Hydroxyl Radical;
三氯乙烯和四氯乙烯与羟基自由基加成反应的理论研究
3.
Adsorption and regeneration by supercritical CO_2 characteristic of activated carbon and different soils to perchloroethylene;
活性炭及不同土壤吸附-超临界CO_2再生四氯乙烯的特性
5) carbon tetrachloride
四氯化碳
1.
Advances in hydrodechlorination of carbon tetrachloride;
四氯化碳催化加氢研究进展
2.
Analysis of the petroleum class in the water by using chlorinated tetrafluoroethylene polymer instead of carbon tetrachloride as the extracting agent;
氯化四氟乙烯聚合物替代四氯化碳为萃取剂分析水中石油类
3.
Investigation on corrosion behavior and mechanism of carbon tetrachloride to 1J116 alloy;
四氯化碳对1J116材料的腐蚀行为及机理探讨
6) Tin tetrachloride
四氯化锡
1.
Catalytic synthesis of β-naphthol methyl ether with tin tetrachloride;
四氯化锡催化合成β-萘甲醚
2.
Study on the catalytic synthesis of acetates by tin tetrachloride;
四氯化锡催化乙酸酯的合成研究
3.
Using tin tetrachloride as catalyst, 2-chloroadenine reacted with 1,2,3,5-tetraacetylribofuranose at 130 ℃ for 15 minutes to form the intermediate 2’,3’,5’-triacetylnucleoside-2-chloroadenosine.
以2-氯腺嘌呤和1,2,3,5-四乙酰基核糖为原料,四氯化锡为催化剂,在130℃下反应15min,得到中间体2-氯腺嘌呤-2’,3’,5’-三乙酰基核苷。
参考词条
补充资料:四氯化金酸三水合物
分子式:AuCl3-HCl-3H2O
分子量:393.8
CAS号:16961-25-4
性质:暂无
制备方法:暂无
用途:用于铷、铯的微量分析和生物碱测定。
分子量:393.8
CAS号:16961-25-4
性质:暂无
制备方法:暂无
用途:用于铷、铯的微量分析和生物碱测定。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。