Browse > Article
http://dx.doi.org/10.12925/jkocs.2018.35.4.1338

A Study on Pd-based Electrode prepared by using Electroless Plating Method  

Hwang, In Hyuck (Department of Environmental Energy Engineering, Graduate school of Kyonggi University)
Lee, Dong Yoon (Department of Environmental Energy Systems Engineering, Kyonggi University)
Kim, Sung Su (Department of Environmental Energy Systems Engineering, Kyonggi University)
Publication Information
Journal of the Korean Applied Science and Technology / v.35, no.4, 2018 , pp. 1338-1347 More about this Journal
Abstract
In this study, Ti-mesh based electrodes were fabricated for the application of anode to the electrolysis process for wastewater treatment using Pd electroless plating method. The removal performance of the prepared Pd / Ti-mesh electrode was evaluated as representative dye RO16, and the durability and performance were maximized by varying the electrode manufacturing conditions. As a result, it was confirmed that the coating condition had no significant effect on the performance, and that the heat treatment process greatly affected the performance and the durability was improved. In addition, we tried to maximize performance and durability by complexing Ir, Ru, and Ta. However, as the thickness of the layer increased due to the limitation of the coating method, the resistance increased and the performance decreased accordingly.
Keywords
Electrode; anode; electroless plating; Palladium; reactive oreage 16 (RO16);
Citations & Related Records
연도 인용수 순위
  • Reference
1 S. H. Park, I. S. Kim, "Disinfection of harmful organisms for sea water using electrolytic treatment system", Kor. Inst. Navig. Port Res., Vol.28, No,10, pp. 995-960, (2004).
2 B. I. Choi, W. K. Yeo, J. S. Lee, "Influences of plating conditions on magnetic properties of Co-P thin flims by electroless plating", J. Korean Inst. Surf. Eng., Vol.9, No.1, pp.3-12, (1986).
3 S. H. M. Anijdan, M. Sabzi, M. R. Zadeh, M. Farzam, "The effect of electroless bath parameters and heat treatment on the properties of Ni-P and Ni-P-Cu composite coatings", Mater. Res., Vol.21, No.2, pp. 1-9, (2018).
4 X. Shu, Y. Wang, X. Lu, C. Liu, W. Gao, "Parameter optimization for electroless Ni-W-P coating", Surf. Coat. Technol., Vol.276, pp. 195-201, (2015).   DOI
5 R. J. Liu, P. A. Crozier, C. M. Smith, D. A. Hucul, J. Blackson, G. Salaita, "Metal sintering mechanisms and regeneration of palladium/alumina hydrogenation catalysts", Appl. Catal. A, Vol.282, No.1-2, pp. 111-121, (2005).   DOI
6 N. I. Baklanova, V. V. Lozanov, N. B. Morozova, A. T. Titov, "The effect of heat treatment on the tensile strength of the iridium-coated carbon fiber", Thin Solid Films, Vol.578, pp. 148-155, (2015).   DOI
7 D. H. Moon, S. M. Lee, J. Y. Ahn, D. D. Nguyen, S. S. Kim, S. W. Chang, "New Ni-based quaternary disk-shaped catalysts for low-temperature CO2 methanation: Fabrication, characterization, and performance", J. Environ. Manage., Vol.218, pp. 88-94, (2018).   DOI
8 C. M. Choi, Development of Tantalum Doped SnO2 Anodes for Electrochemical Water Treatment, Kyungpook national university, Daegu (2016).
9 S. H. Lee, J. H. Kim, "The study of mutagenicity and organic pollutant in Nakdong river water basin", J. Korean Soc. Environ. Eng., Vol.19, No.6 pp. 785-798, (1997).
10 I. T. Yeom, "Study on appropriate treatment & management of the public sewage treatment works entering the industrial wastewater", National institute of Environmental, (2011).
11 M. C. Lee, H. Y. Lee, J. J. Lim, D. A. Ryu, "Minimization of specific water pollutants and improvement of management system", Proceedings of Korea Society For Regulatory Studies, (2015).
12 M. Luan, G. Jing, Y. Piao, D. Liu, L. Jin, "Treatment of refractory organic pollutants in industrial wastewater by wet air oxidation", Arabian J. Chem., Vol.10, No.1, pp. 769-776, (2017).   DOI
13 C. Feng, N. Sugiure, S. Shimada, T. Maekawa, "Development of a high performance electrochemical wastewater treatment system", J. Hazard. Mater., Vol.103, No.1-2, pp. 65-78, (2003).   DOI
14 J. Levec, A. Pinter, "Catalytic wet-air oxidation processes: A review", Catal. Today, Vol.124 No.3-4, pp. 172-184, (2007).   DOI
15 G. Chen, "Electrochemical technologies in wastewater treatment", Sep. Purif. Technol., Vol.38, No.1, pp. 11-41, (2004).   DOI
16 M. Zhou, Q. Dai, L. Lei, C. Ma, D. Wang, "Long Life Modified Lead Dioxide Anode for Organic Wastewater Treatment: Electrochemical Characteristics and Degradation Mechanism", Environ. Sci. Technol., Vol.39 No.1, pp. 363-370, (2005).   DOI
17 A. M. Polcaro, S. Palmas, "Electrochemical oxidation of chlorophenols", Ind. Eng. Chem. Res., Vol.36, pp. 1791-1798, (1997).   DOI
18 G. Chen, "Electrochemical technologies in wastewater treatment", Sep. Purif. Technol., Vol.38, pp. 11-41, (2004).   DOI
19 M. Panizza, A. Barbucci, R. Ricotti, G. Cerisola, "Electrochemical degradation of methylene blue", Sep. Purif. Technol., Vol.54, pp. 382-387, (2007).   DOI