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In recent years, colloidal arrays of submicrometer-sized monodisperse particles used as structurally colored coatings have drawn great attention due to their non-bleaching properties and low impact on human health and the environment. In this paper, structurally colored coating films were fabricated using monodisperse SiO 2 particles via the cathodic electrophoretic deposition (EPD) technique. The addition of a strong polycation, poly(diallyldimethylammonium chloride) (PDDA), enables the cathodic EPD of SiO 2 particles and carbon black (CB) additives. Optimizing the quantities of PDDA and CB results in the appearance of vivid structural color from the coating films. The arrangement of the particle array is controllable by varying the pH of the water added to the coating sols for EPD. Structurally colored coating films with and without iridescence, i.e., angular dependence, can be fabricated on demand by a simple operation of the EPD process. In addition, the coating film prepared by cathodic EPD displayed high abrasion resistance because PDDA acts not only as a charge control agent but also as a binder.

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“…[47][48][49][50][51] In this case, the cathodic reaction in the EPD process does not cause the elution of metal ions.…”

Section: 26mentioning

confidence: 97%

Structurally colored coating films with tunable iridescence fabricated via cathodic electrophoretic deposition of silica particles

et al. 2018

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“…Nevertheless, a trade-off has to be found between high suspension stability when using low conductivity, and a high particle rate deposition for high conductivity [8]. Generally, finding the optimal solution depends on the surface chemical function of the particles [9], the solvent used [10] and additives such as surfactants [8].…”

Section: Introductionmentioning

confidence: 99%

Decisive influence of colloidal suspension conductivity during electrophoretic impregnation of porous anodic film supported on 1050 aluminium substrate

Fori¹,

Taberna²,

Arurault³

et al. 2014

Journal of Colloid and Interface Science

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The present paper studies the influence of suspension conductivity on the electrophoretic deposition (EPD) of nanoparticles inside a porous anodic aluminium oxide film. It is shown that an increase in the suspension's conductivity enhances impregnation of the anodic film by the nanoparticles. Two mechanisms are seen to promote the migration of particles into the pores. Indeed an increase in the suspension conductivity leads on the one hand to a strengthening of the electric field in the anodic film and on the other hand to a thinning of the electric double layer on the pore walls. The results of our study confirm that colloidal suspension conductivity is a key parameter governing the electrophoretic impregnation depth.

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“…The rate of electrophoretic deposition depends primarily on the charges on the particles, the electrophoretic mobility of the particles in the solvent, and the applied electric field. The EPD technique has been used successfully in biomedical applications [20,21], luminescent materials [22][23][24], gas diffusion electrodes [25], oxidation resistant coatings [26], multi-layer composites [27], oxide nanorods [28], carbon nanotube films [29], functionally graded ceramics [30,31], layered ceramics [32], superconductors [33], piezoelectric materials [34], thick film of silica [35], and nano-size zeolite membranes [36]. Considering these vast fields of application, the EPD technique is being recognized to hold a great potential for economic fabrication of thin, dense electrolyte as well as porous electrodes for SOFC applications.…”

Section: Introductionmentioning

confidence: 99%

Preparation of NiO-YSZ/YSZ bi-layers for solid oxide fuel cells by electrophoretic deposition

Besra

Zha

Liu

2006

Journal of Power Sources

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Cited by 40 publications

References 9 publications

Structurally colored coating films with tunable iridescence fabricated via cathodic electrophoretic deposition of silica particles

Structurally colored coating films with tunable iridescence fabricated via cathodic electrophoretic deposition of silica particles

Decisive influence of colloidal suspension conductivity during electrophoretic impregnation of porous anodic film supported on 1050 aluminium substrate

Preparation of NiO-YSZ/YSZ bi-layers for solid oxide fuel cells by electrophoretic deposition

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