2016
DOI: 10.1016/j.matdes.2016.03.067
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Highly conductive electrodes of graphene oxide/natural rubber latex-based electrodes by using a hyper-branched surfactant

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Cited by 40 publications
(17 citation statements)
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“…It was hypothesized that the chosen surfactant concentrations (0.05 -0.1 M) are sufficient to form a network that provides electrical pathways, considering the significant σ from neat cellulose, and that the presence of RGO enveloping the cellulose network did assist the development of the electrical conductivity of the paper. This observation agrees with previous research on graphene/natural rubber latex (NRL) composites, showing surfactant at a concentration of 0.1 M produces composites with the highest electrical conductivity (Suriani et al, 2016;Suriani et al, 2015). It is instructive to compare these σ values with those systems without surfactants or SAILs.…”
Section: Zeta Potential Measurementssupporting
confidence: 90%
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“…It was hypothesized that the chosen surfactant concentrations (0.05 -0.1 M) are sufficient to form a network that provides electrical pathways, considering the significant σ from neat cellulose, and that the presence of RGO enveloping the cellulose network did assist the development of the electrical conductivity of the paper. This observation agrees with previous research on graphene/natural rubber latex (NRL) composites, showing surfactant at a concentration of 0.1 M produces composites with the highest electrical conductivity (Suriani et al, 2016;Suriani et al, 2015). It is instructive to compare these σ values with those systems without surfactants or SAILs.…”
Section: Zeta Potential Measurementssupporting
confidence: 90%
“…Here, this study used a straightforward method for the preparation of ready-to-use material that is based on electrochemical exfoliation of graphite in a mixture of anionic surfactant ionic liquids and cellulose as the electrolyte. The advantages of this approach over existing methods to produce similar nanocomposite materials are: lower environmental hazards (the medium is water), economically efficient starting materials of ionic liquids, and simple instrumental setup (Parvez et al, 2014;Suriani et al, 2016;Suriani et al, 2015).…”
Section: Discussionmentioning
confidence: 99%
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“…An unique surfactant, sodium 1,4‐bis(neopentyloxy)‐3‐(neopentyloxycarbonyl)‐1,4‐dioxobutane‐2‐sulfonate (TC14) was employed to assist the dispersion of graphene oxide/natural rubber latex (GO/NRL) nanocomposites. The tri‐chain of the hyper‐branched TC14 surfactant successfully improved the dispersions and conductivity of the GO/NRL nanocomposites and was found to be 2.65 × 10 −4 S/cm . Wei and Qiu functionalized GO and thermally reduced GO with allyl groups in order to improve the interactions between the filler and fluoroelastomer (FKM) matrix.…”
Section: Introductionmentioning
confidence: 99%
“…It is this "sandwich-like" structure of GNP/TC3Ph3-AN micelles that can be credited for to the improved dispersion. The hydrophilic headgroups meanwhile are facing away from the graphene surfaces and interact with the shell layer latex particles [59,60]. Now one remaining question is "why do the sodium surfactants undergo shape transitions, whereas the anilinium analogues do not?"…”
Section: Mechanism Of Anilinium Surfactant Self-organization In Aqueomentioning
confidence: 99%