SU793939A1 - Method of stabilizing cuprous ions in aqueous solutions - Google Patents

Description

The invention relates to methods for stabilizing monovalent copper in aqueous solutions and can be used when using active aqueous solutions of monovalent copper as catalysts or as a raw material for the preparation of monovalent copper derivatives.

It is known that aqueous solutions of monovalent media are unstable and are easily oxidized by atmospheric oxygen 1.

The closest to the proposed method to the technical essence of the achieved effect is a method of stabilizing monovalent copper in aqueous solutions containing complexing agent {2. Thus, for example, copper chloride CuCl in an aqueous solution can be stabilized in the presence of concentrated hydrochloric acid by forming the complex compound HICuCb, and copper cyanide CuCN in the presence of potassium cyanide by forming the complex compound KICu (CN) 2 in solution.

The main disadvantage of this method is the low degree of dissociation of such complexes, which does not allow to create a noticeable concentration in the aqueous solution of uncomplexed-active-monovalent copper ions. Another disadvantage of this method is the use of

comforter in large concentrations.

The purpose of the invention is to obtain stable water-soluble compounds of monovalent copper with high chemical activity.

This goal is achieved by the fact that, when stabilized, gndroxylamine is used as a complexing agent.

0

The amount of hydroxylamine used is 2-4 times the amount of copper, and derivatives of divalent copper are used as the starting compound.

The method is carried out as follows.

Copper salts of monovalent copper, for example chloride or sulphate (and more preferably the same-grade bivalent copper, of the same name) are dissolved in water at room temperature. An excess (2-4 times relative to the amount of copper in moles) of hydroxylamine is then added to the solution. The pH 6 solution is stirred for

5 0.5-1.0 h.

The result is a monovalent copper solution containing copper compounds in water-soluble form with high activity and stable in air for 24 hours.

Example 1. Copper monochloride in an amount of 10 g is dissolved at room temperature in 100 ml of a 3 M hydroxylamine hydrochloride solution.

As a result, 1 M solution of odiovosti copper containing copper in the active state and stable in air for 24 hours is obtained.

PR and M e p 2. Copper sulfate in an amount of 10 g is dissolved at

The stability of aqueous solutions in the presence of

temperature in 100 ml of a 3 M solution of seric acid hydroxylamine. As a result, a 0.62 M solution of single-ionic copper active in air is obtained.

The table illustrates the stability of aqueous solutions of copper odiobalase depending on the concentration of copper in the solution and the concentration of hydroxylamine.

Tay l and and a 1

monovalent copper

on hydroxylamine air

Claims (3)

1. A method of stabilizing monovalent copper in aqueous solutions in the presence of a complexing agent, characterized in that, in order to obtain stable water-soluble monovalent copper compounds with high chemical activity, hydroxplamine is used as a complexing agent. 2. A method according to claim 1, characterized in that the amount of hydroxylamine in the solution is 2 to 4 times the amount of copper. 3. The method according to claim 1, characterized in that bivalent derivatives are used as the starting compound. copper. Sources of information received in the VII mania during the examination: 1.Cotton, D. Wilkinson. Modern inorganic chemistry. L., Mir, 1969, t. 3. p. 313. 2. Nekrasov B.V. Fundamentals of General Chemistry, Chemistry, M., 1973, Vol. 2, p. 264-267 (prototype).