A photocatalyst made of cuprous bromide, wherein the cuprous bromide expresses a photocatalytic property of decomposing a substance brought into contact with the cuprous bromide by irradiation with light.

A photocatalyst made of cuprous bromide, wherein the cuprous bromide expresses a photocatalytic property of decomposing a substance brought into contact with the cuprous bromide by irradiation with light.

Provided is a method for preparing an alkynyl pyridine prolyl hydroxylase inhibitor. In particular, the method involved uses 3-substituted-5-bromopyridine-2-carboxylic acid protected by different protection groups as raw materials, and by means of condensation, Sonogashira coupling and deprotection, the target compound is obtained. The process reaction conditions are simple, and have no harsh reaction conditions, strong operability, and stable amplification.

Provided is a method for preparing an alkynyl pyridine prolyl hydroxylase inhibitor. In particular, the method involved uses 3-substituted-5-bromopyridine-2-carboxylic acid protected by different protection groups as raw materials, and by means of condensation, Sonogashira coupling and deprotection, the target compound is obtained. The process reaction conditions are simple, and have no harsh reaction conditions, strong operability, and stable amplification.

A method for preparing 1,2,4-triazole includes using a fluoroborate aryl diazonium salt, a diazoester derivative and an organic nitrile as reaction substrates, a transition metal salt as a catalyst, and an inorganic base as an additive in a cyclization reaction. The method has the following characteristics: the reaction is economical; the substrate is universal; the post-functionalization is easy; the reaction conditions are mild; the reaction can be performed in air; the catalyst amount used is less; and the post-treatment is simple. Meanwhile, the raw materials, such as the reactants and the catalyst used, are inexpensive and easily available; the reaction composition is reasonable; no ligand is needed; there are less reaction steps; and only one step of reaction is required to obtain a high yield, meeting the requirements and directions of contemporary green chemistry and medicinal chemistry, being suitable for screening highly active 1,2,4-triazole drugs.

A process for producing chromenes intended for the preparation of thermosetting resins, includes converting an aromatic propargyl ether of general formula (I) into a chromene by homogeneous catalysis with copper salts in anisole at a temperature between 100 and 170 C. Moreover, a process for preparing a material made of thermoset resin, includes successively a) carrying out the above process; b) polymerizing the reaction product obtained in a) so as to obtain the material made of thermoset resin; c) recovering the material made of thermoset resin obtained in b).

A process for producing chromenes intended for the preparation of thermosetting resins, includes converting an aromatic propargyl ether of general formula (I) into a chromene by homogeneous catalysis with copper salts in anisole at a temperature between 100 and 170 C. Moreover, a process for preparing a material made of thermoset resin, includes successively a) carrying out the above process; b) polymerizing the reaction product obtained in a) so as to obtain the material made of thermoset resin; c) recovering the material made of thermoset resin obtained in b).

Catalysts for the dehydration of lactic acid, lactic acid derivatives, or mixtures thereof to acrylic acid, acrylic acid derivatives, or mixtures thereof in liquid phase comprising an ionic liquid (IL) and an acid are provided.

Catalysts for the dehydration of lactic acid, lactic acid derivatives, or mixtures thereof to acrylic acid, acrylic acid derivatives, or mixtures thereof in liquid phase comprising an ionic liquid (IL) and an acid are provided.

Methods for making acrylic acid, acrylic acid derivatives, or mixtures thereof by contacting a feed stream containing lactic acid, lactic acid derivatives, or mixtures thereof with a molten salt catalyst comprising an ionic liquid (IL) and an acid in liquid phase are provided.