One step oxidation of benzene to phenol has been a challenging subject in organic synthesis.
苯一步氧化制苯酚,是有机物氧化合成中富有挑战性的研究课题之一。
The experimental result shows that the reaction order of the exhaustive oxidation of Benzene over rare-earth perovskite structure catalyst is 1.
实验结果表明,苯在稀土钙钛矿型催化剂上完全氧化反应的反应级数为1。
The mechanism of catalytic oxidation of benzene has been studied by applying a transient response method. A model of the reaction mechanism is proposed.
采用瞬变应答法研究了苯在钒催化剂上催化氧化的反应机理。
The production technologies of phenol are briefly introduced, i. e. method based on cumin, toluene-benzoic acid based method, and direct oxidation of benzene.
简要介绍了苯酚的几种生产工艺,异丙苯法、甲苯-苯甲酸法和苯直接氧化法。
According to the capacity of isopropyl benzene oxidation reaction in Yansan chemical factory, the airlift reactor in our laboratory is amplified.
将实验室规模的气升式反应器依照燕山化工二厂异丙苯氧化反应的生产能力进行了放大。
The influences of contact area of catalyst with reactant catalyst area, catalyst dosage and initial concentration of benzene on the benzene photocatalytic oxidation reaction were investigated.
考察了催化剂与反应物的接触面积,催化剂用量和苯的初始浓度对苯光催化氧化反应的影响。
Furthermore, benzylation of methyl-substituted benzene by activation of saturated hydrogen through the use of oxidation or free radical initiation has been developed.
此外,探索通过氧化或者自由基引发,对甲苯类化合物的饱和氢活化进行苄基化反应。
Speculating reaction mechanism shows that the active species plays an important role in the reaction of molecular dissociation and the oxidation of the benzene rings.
并对反应机理进行推测,结果表明在反应中活性物种在分子键的断裂及苯环的氧化等方面起到重要的作用。
In the method of air phase oxidation the mixed gas that boiling 1,2,4,5-tetramethyl benzene is combined with air is carried into oxidation reactor and reacts and then product gas is cooled.
气相氧化法是将空气与汽化后的均四甲苯混合进入含有催化剂的氧化反应器进行氧化反应,反应产物经换热冷却后,均苯四甲酸二酐直接从气相中凝华捕集。
And it is considered that the reduction-oxidation method would be the optimum method for realizing in industry direct hydroxylation of benzene to phenol.
通过比较认为,氧化还原法是未来实现苯直接羟化合成苯酚工业化的优选方法。
The benzene ring itself is not susceptible to low-temperature oxidation, but its substitution into a paraffinic chain increases the response of the latter.
苯环本身对低温氧化并不敏感,但当它取代进入烷烃链后,将增加链对低温氧化的响应。
The benzene ring itself is not susceptible to low-temperature oxidation, but its substitution into a paraffinic chain increases the response of the latter.
苯环本身对低温氧化并不敏感,但当它取代进入烷烃链后,将增加链对低温氧化的响应。
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