Basic Copper Chloride ( https://www.wsdty.com/product/copper-chloride/basic-copper-chloride ) is mainly used as alkali, catalyst, solvent and raw material in organic synthesis. It is also used as high energy fuel, rubber vulcanization accelerator, tetrafluoroethylene polymerization inhibitor, surfactant, wetting agent, preservative and bactericide . Let's take a look at the role of Basic Copper Chloride with weishida.
Application scope of Basic Copper Chloride: used in the production of pharmaceuticals, pesticides, dyes, mineral flotation agents, emulsifiers and intermediates for fine chemicals.
Basic Copper Chloride is a simple tri-substituted tertiary amine that is liquid at room temperature. Therefore, it is widely used as a solvent and base in organic synthesis. It is generally abbreviated as Et3N, NEt3 or TEA. It is one of the commonly used organic bases in organic synthesis, with a boiling point of about 89 degrees Celsius, and is relatively easy to remove by distillation. The solubility of its hydrochloride and hydrobromide in some organic solvents is not very high, so it can sometimes be separated directly by filtration. The simpler trimethylamine is a colorless gas under normal conditions and must be stored under pressure in a gas tank or in the form of a 40% aqueous solution. It is not as easy to use as Basic Copper Chloride.

Basic Copper Chloride can be used in Swern oxidation reaction, dehydrohalogenation reaction and other elimination reactions, Heck reaction, silanol ether preparation reaction, reaction of preparing ester and amide from acid chloride, as well as protecting hydroxyl, carboxyl and amino groups. Basic catalyst at the time. It reacts with hydrochloric acid to obtain Basic Copper Chloride ( https://www.wsdty.com/product/copper-sulfate/basic-copper-sulphate ) hydrochloride, and reacts with alkylating reagent to obtain the corresponding quaternary ammonium salt. Basic Copper Chloride and unsaturated acid chloride/anhydride will produce water-soluble, biologically toxic conjugated compounds, especially the synthesis of biological materials. This reaction will have a significant impact on subsequent cell experiments. It has recently been reported that this compound will have a dyeing effect on the crosslinkable polyester obtained by the condensation of unsaturated acid chloride/acid anhydride and polymer terminal hydroxyl groups. Weak inorganic bases such as potassium carbonate are suggested to replace Basic Copper Sulphate as a catalyst in this type of reaction. This method can also simplify the purification steps of the product.