Hydroquinone Carboxylation to 2,5-dihydroxyterephthalic Acid by Solvent Method and the Activity of PdCl2/C Catalyst

机译：通过溶剂方法和PdCl2 / C催化剂的活性和PdCl2 / C催化剂的活性羧基羧化至2,5-二羟基苯二甲酸

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@@1.Introduction 2,5-Dihydroxyterephthalic acid (2,5-DHTA) is an important intermediate in organic synthesis, which is widely used for the manufacture of organic optoelectronic materials, colorants, and fluorescent materials. 2,5-DHTA can react with glycols for the manufacture of linear polyester and copolyesters possessing fiber-or film-forming properties[1-3]. The synthesis of 2,5-DHTA can be carried out by a Kolbe-Schmitt reaction. The Kolbe-Schmitt reaction involves three steps, which are shown in Scheme 1.Potassium salt of hydroquinone is first prepared by reaction of hydroquinone with potassium hydroxide or potassium carbonate. The second step is the carboxylation of dipotassium salt of hydroquinone with CO2 under high pressure. Then 2,5-DHTA can be obtained by acidification with hydrochloric acid.

机译：@@ 1.简介2,5-二羟基苯二甲酸（2,5-DHTA）是有机合成中的重要中间体，其广泛用于制造有机光电材料，着色剂和荧光材料。 2,5-DHTA可以与二醇反应，用于制造具有纤维或成膜性质的线性聚酯和共聚酯的制备[1-3]。 2,5-DHTA的合成可以通过KOLBE-SCHMITT反应进行。 KOLBE-SCHMITT反应涉及三个步骤，其在方案中示出1.首先通过氢氧化钾或碳酸钾反应来制备氢醌的钾盐。第二步是氢醌盐的羧基盐的羧化，在高压下具有CO 2。然后可以通过用盐酸酸化获得2,5-DHTA。

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《International symposium on fine chemistry and functional polymers》|2008年||共2页
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中图分类工程材料一般性问题;
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2,5-Dihydroxyterephthalic acid; Solvent method; PdCl2/C catalyst; Hydroquinone;

机译：2,5-二羟基苯二甲酸;溶剂方法;pdcl2 / c催化剂;氢醌;

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机译：通过溶剂方法和PdCl2 / C催化剂的活性和PdCl2 / C催化剂的活性羧基羧化至2,5-二羟基苯二甲酸
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Hydroquinone Carboxylation to 2,5-dihydroxyterephthalic Acid by Solvent Method and the Activity of PdCl2/C Catalyst

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