619-82-9Relevant articles and documents
PRODUCTION METHOD FOR 1,4-CYCLOHEXANEDICARBOXYLIC ACID DERIVATIVE, 1,4-DICYANOCYCLOHEXANE AND 1,4-BIS(AMINOMETHYL)CYCLOHEXANE
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Paragraph 0066; 0067; 0089, (2021/02/05)
A production method for producing a 1,4-cyclohexanedicarboxylic acid derivative, involves subjecting an aqueous ammonia solution of 1,4-cyclohexanedicarboxylic acid to heat concentration, thereby precipitating a 1,4-cyclohexanedicarboxylic acid derivative as a crystal.
Catalyst for aqueous phase catalytic hydrogenation of phthalic acids and ester derivatives thereof and preparation method and application thereof
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Paragraph 0046-0051; 0055-0056, (2020/07/13)
The invention discloses a catalyst for aqueous phase catalytic hydrogenation of phthalic acids and ester derivatives thereof, a preparation method and application thereof. The catalyst adopts an acidic composite carrier of aluminum-doped ordered mesoporous silica, and combines specific Si/Al, ordered mesoporous size and active component loading capacity to realize catalytic hydrogenation of phthalic acids and ester derivatives thereof in the water phase to prepare corresponding cyclohexanedicarboxylic acids and derivatives thereof. The catalyst is low in raw material cost, simple in preparation process and lower in noble metal loading capacity, wherein the catalytic reaction temperature is 40-100 DEG C, the hydrogen pressure is 3-6MPa, the reaction time is 0.2-3h, the conditions are mild,the solvent is pollution-free and the catalytic efficiency is high.
Method for synthesizing cyclohexanecarboxylic acid by catalyzing hydrogenation of benzene rings through rubidium-gallium-loaded catalytic material
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Paragraph 0018; 0030, (2019/01/24)
The invention relates to the fine chemical engineering field and particularly relates to a method for synthesizing cyclohexanecarboxylic acid by catalyzing hydrogenation of benzene rings through a rubidium-gallium-loaded catalytic material. According to the method, aromatic ring carboxylic acid is catalyzed by virtue of the rubidium-gallium-loaded catalytic material in deionized water and generates selective addition reaction with hydrogen at a low temperature and a relatively low pressure so as to generate cyclohexanecarboxylic acid; the reaction temperature is low, the reaction pressure is lower than that in the prior art, no organic solvent is adopted, the side reactions are few, and the product is conveniently purified, and the method is suitable for industrial production; and the prepared rubidium-gallium-loaded catalytic material can be recycled, is high in catalytic activity and strong in selectivity and is a very promising novel catalytic material.