3) indirect electro-oxidation
间接电氧化
1.
Recycle and reuse of Ce~(4+)/Ce~(3+) medium used in indirect electro-oxidation synthesis;
间接电氧化媒质Ce~(4+)/Ce~(3+)的循环与再利用
2.
Simulation of indirect electro-oxidation process for pollutants treatment in a filter-press type electrochemical reactor
滤压式电解槽间接电氧化处理污染物的过程模拟
3.
The synthesis of terephthalic acid by indirect electro-oxidation was studied and the optimum conditions were examined.
研究了槽外式间接电氧化对二甲苯生成对苯二甲酸的反应,得出最佳条件:投料比n(Cr(Ⅳ))∶n(对二甲苯)=4。
4) Indirect electrooxidation
间接电氧化
1.
The optimum process condition is gained through studying all kinds of factors in preparation of benzaldehyde by indirect electrooxidation.
通过对间接电氧化制苯甲醛过程中电解温度、酸浓度原料摩尔浓度以及氧温度等因素进行考察,得到了最佳工艺条件。
2.
o-, m-, p-Methylbenzaldehydes were synthesized from dimethylbenzene with Mn(II)/ Mn(III) as the oxidant by indirect electrooxidation.
以Mn(II) /Mn(III)为氧化还原媒质 ,间接电氧化合成了邻、间、对位甲基苯甲醛 。
3.
In an undivided electrolytic cell and with benzene as the starting material, Cu 2+ ions as electrolytic medium, Cu as the anode material and graphite as the cathode material, the synthesis of para quinone via the indirect electrooxidation of benzene was studied.
在无隔膜电解槽中 ,以 Cu2 +离子为电解媒质 ,铜板作阳极 ,石墨作阴极 ,对苯的间接电氧化进行研究 。
补充资料:加成-氧化加成
分子式:
CAS号:
性质: 反应基质分子在配位不饱和的过渡金属络合物上配位,从而使其活化,是进行络合催化反应的必要步骤。配位不饱和的络合物增加配位体的反应称为加成反应。可表示为:L4M+XF←←L4MX(X为CO或烯烃);过渡金属络合物的配位体数和中心金属氧化数同时增加的加成反应,称为氧化加成反应,其反应式可表示为:L4Mn++X-Y←→L4M(n+2)+XY
CAS号:
性质: 反应基质分子在配位不饱和的过渡金属络合物上配位,从而使其活化,是进行络合催化反应的必要步骤。配位不饱和的络合物增加配位体的反应称为加成反应。可表示为:L4M+XF←←L4MX(X为CO或烯烃);过渡金属络合物的配位体数和中心金属氧化数同时增加的加成反应,称为氧化加成反应,其反应式可表示为:L4Mn++X-Y←→L4M(n+2)+XY
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条