Electrochemical Study of the Additive-Effect on Sn Electrodeposition in a Methansulfonate Acid Electrolyte

Abstract: The effect of three organic additives in stannous methanesulfonate baths on cathodic overpotential and Faradaic impedance of tin-electrodeposition were studied by measuring cathodic polarization curves, galvanostatic responses and electrochemical impedance spectroscopy. The results show that the composite additive consisting of three organic compounds can significantly increase the cathodic polarization, crystallization overpotential and charge transfer resistance, which is very beneficial to improve coating q… Show more

“…This result was obtained with others additives 13,16 . This is caused by the adsorption of the additive on the working electrode surface [12][13][14][15][16] , which impeded the charge transfer 17,18 . To prevent the oxidation of the working electrode during cyclic voltammetry measurements, iron was replaced by copper working electrode.…”

Tin electrodeposition from sulfate solution containing a benzimidazolone derivative

“…This result was obtained with others additives 13,16 . This is caused by the adsorption of the additive on the working electrode surface [12][13][14][15][16] , which impeded the charge transfer 17,18 . To prevent the oxidation of the working electrode during cyclic voltammetry measurements, iron was replaced by copper working electrode.…”

Tin electrodeposition from sulfate solution containing a benzimidazolone derivative

Effects of additives on zinc electrodeposition from alkaline zincate solution