Accelerating effect of NaNO2 on the polymer plating of 6-substituted-1,3,5-triazine-2,4-dithiol mono sodium salts

Organic polymer plating properties of 6-substituted-1,3,5-triazine-2,4-dith iol mono sodium salts were investigated in the presence of various supporti ng electrolytes. Among these, the NaNO2 supporting electrolyte greatly acce lerated the film formation rate in polymer plating. The accelerating effect of NaNO2 was further confirmed by comparing plating potentials in the pres ence of NaNO2 and Na2CO3. The potentiostatic polymer plating of DAN in the presence of the NaNO2 supporting electrolyte took place in the potential ra nge of 1.65-1.8 V (compared against saturated calomel electrode reference). Film formation was influenced by such factors as the pH of solution and bo th the chemical structure and the concentration of triazine dithiol. In pol ymer platings, NO2- anions are thought to be electrochemically oxidized to yield NO2. radicals and these radicals react with DAN to yield new thiyl ra dicals. The thiyl radicals in the DAN molecules couple with each other by m eans of disulfide bonds, resulting in the growth of polymer film. Organic p olymer plating films are shown to contain disulfide bonds, monosulfide bond s obtained by the reaction between allyl groups and thiyl radicals, and net work chains. (C) 2001 John Wiley & Sons, Inc.