Tertiary alcohol

Special effort has been made to study the esterification method of cedrol which is a highly sterically hindered tri-cyclic tertiary alcohol and the factors which affect their synthesis .

研究了反应条件，位阻大小对产率的影响，并着重探索了三环大位阻高级叔醇&柏木醇的酯化方法及影响其合成的的因素。

The structure of amyl alcohol affects both the initial reaction rate and the ultimate yield of amyl n caprylate in the following sequence : primary alcohol > secondary alcohol > tertiary alcohol .

醇结构对MIECC有影响，在反应初速率及平衡产率方面均遵循伯醇>仲醇>叔醇的规律。

It is not found that the tertiary alcohol was formed in the cases .

没发现三级醇生成。

Application of tertiary butyl alcohol in quick paraffin-embedded section using microwave irradiation

叔丁醇在临床标本微波快速石蜡切片中的应用

Preparation of tertiary amyl alcohol from iso amyl ene enriched c_5 fraction

富含异戊烯的C5馏分合成叔戊醇的研究

A series of multicomponent catalysts for preparation of methacrolein by oxidation of tertiary butyl alcohol were prepared .

制备了一系列叔丁醇氧化制甲基丙烯（？）的多组份催化剂。

Objective To explore the feasibility of freeze drying of liposomes using tertiary butyl alcohol ( TBA ) - water cosolvent systems .

目的考察用叔丁醇水共溶剂体系冻干脂质体的可行性。

A reaction kinetic model for synthesis of ETBE from ethanol and tertiary butyl alcohol , catalyzed by HF / USY modified by hydrofluoric acid , was established .

以乙醇和叔丁醇为原料、氢氟酸改性USY分子筛为催化剂合成乙基叔丁基醚，建立了反应动力学模型。

Preparation of tertiary amyl alcohol from hydration of isoamylene enriched C 5 fraction was carried in the laboratory . The effects of catalyst , reaction temperature , pressure , space velocity and water / isoamylene ratio were investigated .

在实验室研究了从富含异戊烯的C5馏分水合制备叔戊醇的工艺，考察了催化剂、反应温度、压力、空速、水与异戊烯摩尔比等因素对水合反应的影响。

The catalytic amination of isobutene , the catalytic amination of methyl tert butyl ether and the reaction of tertiary butyl alcohol with HCl and NH 3 to give tert butylamine are discussed with emphasis .

着重讨论了异丁烯催化氨化法、甲基叔丁基醚催化氨化法和叔丁醇卤化再氨化法等3种方法。

The experimental results showed that the excessively high temperature on rate of reaction were unfavorable to the reaction , the increase of isobutene gas pressure , stir speed and initial concentration of tertiary butyl alcohol increased reaction rate , and the decease of particle size increased reaction rate .

结果表明，过高的温度对反应产生不利影晌；增加异丁烯气体压力、提高搅拌速度及叔丁醇初始浓度能提高反应速率；