Effects of Porous Alumina Support and Plating Time on Electroless Plating of Palladium Membrane 被引量：3

Effects of Porous Alumina Support and Plating Time on Electroless Plating of Palladium Membrane

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摘要 The present work was focused on the preparation of palladium alloy membranes and the effect of properties of ceramic support on the composited membrane morphology. Palladium-base membrane is known to have high selectivity and stability for hydrogen separation. In order to increase hydrogen permeation and separation factor, the membrane must be thinner and defect-free. Palladium membrane supported on a porous alumina prepared by electroless plating is the promising method to provide good hydrogen permeability. The alumina tube substrate was pre-seeded by immersing in the palladium acetate solution and followed by reduction in the alkaline hydrazine solution. After that, the deposition of palladium membrane could be achieved from the plating bath containing ethylenediamine tetraacetic acid （EDTA） stabilized palladium complex and hydrazine. The morphology of palladium film was observed to progress as a function of plating time and a dense layer membrane was available after plating for 3 h. The porosity of ceramic support exhibited an effect on the microstructure of deposited film such that the support with low porosity tended to achieve a defect free palladium membrane. The present work was focused on the preparation of palladium alloy membranes and the effect of properties of ceramic support on the composited membrane morphology. Palladium-base membrane is known to have high selectivity and stability for hydrogen separation. In order to increase hydrogen permeation and separation factor, the membrane must be thinner and defect-free. Palladium membrane supported on a porous alumina prepared by electroless plating is the promising method to provide good hydrogen permeability. The alumina tube substrate was pre-seeded by immersing in the palladium acetate solution and followed by reduction in the alkaline hydrazine solution. After that, the deposition of palladium membrane could be achieved from the plating bath containing ethylenediamine tetraacetic acid （EDTA） stabilized palladium complex and hydrazine. The morphology of palladium film was observed to progress as a function of plating time and a dense layer membrane was available after plating for 3 h. The porosity of ceramic support exhibited an effect on the microstructure of deposited film such that the support with low porosity tended to achieve a defect free palladium membrane.

作者 Mettaya Kitiwan Duangduen Atong

机构地区 National Metal and Materials Technology Center

出处《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2010年第12期1148-1152,共5页 材料科学技术（英文版）

基金 supported by the National Metal and Materials Center,Thailand under Grant No.MT-B-51-END-07-057-I

关键词 Palladium composite membrane Tubular porous support Electroless plating Palladium composite membrane Tubular porous support Electroless plating

分类号 TB383.2 [一般工业技术—材料科学与工程]

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Journal of Materials Science & Technology

2010年第12期

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Effects of Porous Alumina Support and Plating Time on Electroless Plating of Palladium Membrane 被引量：3

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