Preparation of a Composite Particle Electrode by Electroless Plating and Its Electrocatalytic Performance in the Decolorization of Methyl Orange Dye Solution
نویسنده
چکیده
Um eletrodo de partículas compósitas de carbono modificado com níquel níquel (Ni/AC) foi preparado por deposição sem aplicação de corrente com pré-tratamento livre de paládio para melhorar o desempenho eletrocatalítico do eletrodo compósito em uma cela eletroquímica. As condições de preparo do eletrodo de partículas compósitas de Ni/AC foram otimizadas usando-se como índice a razão do descoramento de uma solução do corante alaranjado de metila. Os eletrodos de partículas compósitas foram caracterizados por microscopia eletrônica de varredura, difração de raios-X e análises por espectrometria de energia dispersiva. Os desempenhos eletrocatalíticos do eletrodo de partículas Ni/AC foram examinados por meio de vários parâmetros, incluindo dosagem do eletrodo de partículas, concentração de sulfato de sódio, tensão da cela e tempo de eletrólise. Os resultados foram comparados com os de eletrodo de partículas convencionais de carbono ativado (AC). Esses resultados indicaram ser possível preparar um eletrodo de partículas compósitas de Ni/AC por revestimento electroless com pré-tratamento sem paládio. As condições ótimas de preparo do eletrodo Ni/AC eram 40 g L NiSO4·6H2O, 27 g L -1 NaH2PO2·H2O, 50 °C temperatura de revestimento, e 20 min tempo de revestimento. O desempenho eletrocatalítico do eletrodo Ni/AC foi superior ao do eletrodo AC sob as mesmas condições de eletrólise. A constante de velocidade de oxidação do alaranjado de metila pelo eletrodo Ni/AC foi 1,5 vezes maior que o do eletrodo AC.
منابع مشابه
Photocatalytic decolorization of methyl orange dye using nano-photocatalysts
Environmental contamination, which is growing around the world, is a serious problem can not to be neglected. Among all contaminations, water pollution is a major problem. Azo dyes are one of the largest groups of pollutants found in the drinking water, coming from, and the food and textile industries. TiO2/Fe3O4 and TiO2/Fe2O3 nanocomposites with various ratios were synthesized by an ultrasoni...
متن کاملDecolorization of Methyl Orange (As a Model Azo Dye) by the Newly Discovered Bacillus Sp
A bacterial strain (strain PS) was isolated from the textile effluents carrying Serilene Black BNFS® (C.I. Disp. Blk. Mix) disperse dye. The isolate was able to decolorize the dye without the need for any exogenous carbon source. Full sequencing of its 16S rRNA indicated that Bacillus sp strain PS is related to Bacillus cereus groups. Silica- gel-thin layer chromatography of Ser...
متن کاملPhotocatalytic Decolorization of Methyl Orange Solution with Phosphotungstic Acid
Photocatalytic decolorization of Methyl Orange (MO) solution has been studied using phosphotungstic acid (HPA) as photocatalyst. The decolorization reaction of MO solution is photocatalysis. The paper reveals that the optimal loading of photocatalyst for decolorization of MO solution (10 mg/L) is 0.6 g/L. The results show that the photocatalytic decolorization reaction of MO with HPA in a h...
متن کاملElectrocatalytic oxidation of formaldehyde on novel composite of nickel/triton-x100/poly(o-aminophenol-co-aniline)
Oxidation of formaldehyde (HCHO) is very important, owing to its use in fuel cells. Modification of electrodes surfaces is an excellent way to decrease the overpotentials as well as to increase the current density of the voltammetric response.pt as most efficient metal catalyst can easily be poisoned by product of oxidation and also it has high cost. In this work an efficient and low cost elect...
متن کاملNovel Electroless Plating of Ruthenium for Fabrication of Palladium-Ruthenium Composite Membrane on PSS Substrate and Its Characterization
This paper focused on a novel method of electroless plating ruthenium (Ru) on solid or porous substrates like porous stainless steel (PSS) discs or ceramic tubes. A novel complexing plating bath of Ru was developed. It is proven that Ru can be deposited directly on these substrates by the bath at a temperature of 328 K and strong alkaline environment. TGA, SEM, EDX and XRD confirmed the success...
متن کامل