Effect of Organic Additives on Electrodeposition Behavior of Zn from Alkaline Zincate Solution and Its Micro Structure

Fukumoto, Ken-ichi; Oue, Satoshi; Kikuchi, Yoshiharu; Akamatsu, Shinya; Takasu, Tomio; Nakano, Hiroaki

doi:10.2320/jinstmet.j2019027

Cited by 6 publications

(1 citation statement)

References 20 publications

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“…Therefore, the authors selected two additives of a straight-chain polymer composed of a quaternary ammonium cation (PQ) and a quaternary ammonium salt with a benzene ring (QA), and the effects of the additives on the deposition behavior of Zn and resulting Zn microstructure were examined. 21,22) NaOH is generally used as the principal basic agent in electrodeposition from zincate solutions. The viscosity and conductivity of the solution, the state of the water molecules of the solvent, and the activity of OH ¹ ions change according to the kind of the basic agent.…”

Section: Introductionmentioning

confidence: 99%

Effect of Organic Additives on Electrodeposition Behavior of Zn from Zincate Solution Containing Potassium Hydroxide and Its Micro Structure

Fukumoto

Oue

Niwa³

et al. 2021

Mater. Trans.

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Zn was electrodeposited on an Fe electrode at a current density of 505000 A•m ¹2 , charge of 4 © 10 4 C•m ¹2 , and temperature of 313 K in an unagitated zincate solution containing 0.62 mol•dm ¹3 of ZnO, 4.0 mol•dm ¹3 of KOH or NaOH, and organic additives. The effects of KOH and NaOH on the deposition behavior of Zn in the solution containing the organic additives and on the microstructure of the deposits were investigated. In a solution containing a straight-chain polymer composed of a quaternary ammonium cation (PQ) and a quaternary ammonium salt with a benzene ring (QA), the current efficiency for Zn deposition in a high-current-density region (10005000 A•m ¹2 ) to produce glossy films was higher with KOH than that with NaOH. At high current densities above 1000 A•m ¹2 , the Zn deposition approached the diffusion limitation of ZnO 2 2¹ ions. With the addition of PQ and QA, the diffusion of ZnO 2 2¹ ions was significantly suppressed, and the degree of suppression was smaller with KOH than that with NaOH. The polarization resistance at 200 A•m ¹2 , which was investigated through alternating current impedance, revealed that the adsorption ability of PQ and QA onto the cathode was smaller with KOH than that with NaOH. Since the suppression effect of the additives on the Zn deposition was smaller with KOH than that with NaOH, the current efficiency for Zn deposition in the high-current-density region was larger with KOH. The upper limit of the current density needed to produce glossy films was smaller with KOH than that with NaOH, and spongy thin films were partially observed on platelet crystals obtained at high current densities in the KOH solution. The C content resulting from the additives in the deposited Zn was smaller with KOH because the adsorption ability of PQ and QA onto the cathode was smaller with KOH than that with NaOH.

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Section: Introductionmentioning

confidence: 99%

Effect of Organic Additives on Electrodeposition Behavior of Zn from Zincate Solution Containing Potassium Hydroxide and Its Micro Structure

Fukumoto

Oue

Niwa³

et al. 2021

Mater. Trans.

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Effect of Organic Additives on Electrodeposition Behavior of Zn from Zincate Solution Containing Potassium Hydroxide and Its Micro Structure

Fukumoto

Oue

Niwa³

et al. 2021

J. Japan Inst. Metals and Materials

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アルカリジンケート浴からの亜鉛の電析挙動とその結晶形態に及ぼす有機添加剤の構造の影響

Imatani,

Oue,

Taninouchi

et al. 2024

J. Japan Inst. Metals and Materials

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The effect of structure of organic additives on the electrodeposition behavior of Zn from alkaline zincate solution and its crystal morphology was investigated. Zn was electrodeposited on an Fe electrode at 20-1000 A•m −2 , 2.4 × 10 4 C•m −2 , 300 K from unagitated zincate solutions containing the various organic additives as a leveling agent. The suppression effect of additives on the charge transfer and diffusion of ZnO 2 2− ions in Zn electrodeposition corresponded to the number of adsorption site per a straight chain molecule of polymer. The effect of polymer alone on the decrease in size of Zn platelets crystals was small, but the crystal size significantly decreased with coexistence of low molecular additive. The crystal size of deposited Zn decreased in spite of small suppression effect on Zn deposition, showing that the crystal size of deposited Zn doesn't depend on the overpotential for deposition. With coexistence of low molecular additive with polymer, the crystal of deposited Zn was fine regardless of kind of polymer even though Zn deposited at the diffusion control of ZnO 2 2− ions.

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Effect of Organic Additives on Electrodeposition Behavior of Zn from Alkaline Zincate Solution and Its Micro Structure

Cited by 6 publications

References 20 publications

Effect of Organic Additives on Electrodeposition Behavior of Zn from Zincate Solution Containing Potassium Hydroxide and Its Micro Structure

Effect of Organic Additives on Electrodeposition Behavior of Zn from Zincate Solution Containing Potassium Hydroxide and Its Micro Structure

Effect of Organic Additives on Electrodeposition Behavior of Zn from Zincate Solution Containing Potassium Hydroxide and Its Micro Structure

アルカリジンケート浴からの亜鉛の電析挙動とその結晶形態に及ぼす有機添加剤の構造の影響

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