2016
DOI: 10.1016/j.jcis.2015.09.053
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Universal dispersing agent for electrophoretic deposition of inorganic materials with improved adsorption, triggered by chelating monomers

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Cited by 17 publications
(15 citation statements)
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“…The role of the dye dispersant in the dyeing process is to react as a surfactant to break the agglomeration of dye particles . Sulfonated lignin with a high molecular weight will facilitate steric hindrance to prevent the agglomeration, and the molecular weight of sulfonated lignin will be significantly increased by using the sulfonation reagents with more aliphatic carbons, which will promote the dye dispersion and the stability. , Meanwhile, the introduction of sulfonic groups will provide electrostatic repulsion that also can stabilize and disperse dye particles. The sulfonated lignin with a longer aliphatic chain exhibited a higher sulfonation degree (Table ), which would enhance the dye dispersion and the stability by providing strong electrostatic repulsion …”
Section: Resultsmentioning
confidence: 99%
“…The role of the dye dispersant in the dyeing process is to react as a surfactant to break the agglomeration of dye particles . Sulfonated lignin with a high molecular weight will facilitate steric hindrance to prevent the agglomeration, and the molecular weight of sulfonated lignin will be significantly increased by using the sulfonation reagents with more aliphatic carbons, which will promote the dye dispersion and the stability. , Meanwhile, the introduction of sulfonic groups will provide electrostatic repulsion that also can stabilize and disperse dye particles. The sulfonated lignin with a longer aliphatic chain exhibited a higher sulfonation degree (Table ), which would enhance the dye dispersion and the stability by providing strong electrostatic repulsion …”
Section: Resultsmentioning
confidence: 99%
“…However, the use of dispersing agents can introduce additional considerations of chemical compatibility between the additive and solvent and nonideal behavior in solution, while particular deposition parameters can introduce unfavorable particle-substrate interactions and non-ideal particle behavior in solution. Ultimately, these approaches can limit the maximum achievable yield (Yum et al, 2003;Besra and Liu, 2007;Khalili et al, 2016;Liu et al, 2016;Dhiflaoui et al, 2017).…”
Section: Introductionmentioning
confidence: 99%
“…Two variants of the electrodeposition processes have been developed for use in SOFC technology: electrophoretic deposition (EPD) and electrolytic deposition (ELD). The features of these two processes and their applications were analyzed in a number of reviews presented by I. Zhitomirsky [ 20 , 21 ]; the basic difference between these methods is that EPD is performed from suspensions of ceramic particles, while ELD is related to deposition from solutions of salts involving electrode reactions ( Figure 1 ).…”
Section: Introductionmentioning
confidence: 99%
“…Two variants of the electrodeposition processes have been developed for use in SOFC technology: electrophoretic deposition (EPD) and electrolytic deposition (ELD). The features of these two processes and their applications were analyzed in a number of reviews presented by I. Zhitomirsky [20,21]; the basic difference between these methods is that EPD is performed from suspensions of ceramic particles, while ELD is related to deposition from solutions of salts involving electrode reactions (Figure 1). with pulsed laser deposition and molecular beam epitaxy, allowing deposition of nanostructures without high temperature treatment, electrodeposition of nanocomposites-including those with graphene-are widely represented in technology for low temperature fuel cells as well as lithium-ion batteries, microbial fuel cells and supercapacitors [12][13][14].…”
Section: Introductionmentioning
confidence: 99%
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