Methods of chemical activation of the dielectric surface, in which metal-catalyst particles are formed on it as a result of chemical transformations, are more universal, since they allow to vary the compositions of solutions of chemical deposition of metal and to precipitate metals on substrates of different chemical nature with different morphology and surface structure. Noble metal compounds and colloidal solutions characterized by limited storage stability due to the coagulation process are mainly used for surface activation. Palladium-free activation is used for metallization of the surface of unfolded dielectrics and metallization of through holes of printed circuit boards. As a dielectric material used inorganic materials (ceramics, polycore, various types of ceramics) and organic fiberglass with epoxiconazole adhesive layer. The aim of this work is to improve the technology of activation of non-conductive surfaces by true solutions based on copper(I) by optimizing the composition of the activator. It is shown that the drying temperature affects the composition of the activator layer. Activates the layer obtained by drying at 323-373 K, is composed of CuCl2∙2H2O and Cu2O. The optimum mode of drying an activating solution based on copper(I) (T = 353-373 K, τ = 15-20 minutes). The compounds formed during the drying of the activating solution based on copper monochloride do not have catalytic activity sufficient to initiate chemical and electrochemical metallization reactions. Therefore, it is necessary to carry out an additional operation-acceleration in solutions of reducing agents. Solutions of hydrazine chloride (N2H4∙HCl), sodium hypophosphite (NaH2PO4∙H2O), hydroxylammonium chloride (NH2OH∙HCl), the concentration of which varied in the range (0.1-0.5) mol∙l-1, as well as a solution of alkaline formaldehyde were taken as these solutions. The technology of activator acceleration in a solution of the following composition: hydroxylammonium chloride (NH2OH∙HCl)  0.5 mol∙l-1; pH = 8-10; T = 298 K, which allows to significantly increase the surface concentration of catalytically active centers on the dielectric surface. In order to determine the durability and performance of the activating solution, the stability of the copper (I)  based solution was studied. The durability and performance of the activating solution is ensured by the presence of copper monochloride in it. This is possible if the solution will constantly undergo a reaction of reduction of divalent copper to a monovalent state. For this purpose, sodium hypophosphite in an amount of 0.5 mol∙l-1 and metallic copper with a concentration of 30 g∙l-1 were introduced into the activating solution as a reducing agent. The optimal composition of the activating solution containing (mol∙l-1): copper chloride(I) - 3.10; hydrochloric acid - 3.10; surfactant OP-10  0.01; metallic copper 0.47 was established. Methods of regeneration of copper(I) concentration in activation solutions have been developed, which can significantly extend their service life.