Surfactants with aromatic headgroups for optimizing properties of graphene/natural rubber latex composites (NRL): Surfactants with aromatic amine polar heads

Ardyani, Tretya; Mohamed, Azmi; Bakar, Suriani Abu; Sagisaka, Masanobu; Umetsu, Yasushi; Mamat, M. H.; Ahmad, Mohd Khairul; Khalil, H. P. S. Abdul; King, Stephen M.; Rogers, Sarah E.; Eastoe, Julian

doi:10.1016/j.jcis.2019.03.012

Cited by 16 publications

(10 citation statements)

References 62 publications

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“…[ 13, 14 ] Polylactic acid is a biopolymer from carbohydrate source. [ 15, 16 ] It has been used for several industrial applications. Polylactic acid has been proposed for use as a biodegradable film for food and non‐food packaging.…”

Section: Introductionmentioning

confidence: 99%

The role of cellulose nanofibrillated fibers produced with combined supercritical carbon dioxide and high‐pressure homogenization process as reinforcement material in biodegradable polymer

et al. 2021

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The production of kenaf bast cellulose nanofibrillated fiber (CNF) using a combined method of supercritical carbon dioxide (SC CO2) and high-pressure homogenization as the reinforcement with biopolymer were studied. The obtained CNF was used as reinforcement in polylactic acid using the solvent casting method. The obtained CNF were verified using TEM and FTIR analysis to approve the effectiveness of the technique. The dispersion of kenaf bast cellulose nanofibrillated fiber in modified PLA was studied with scanning electron microscopy and atomic force microscopy. Further characterization, such as, mechanical, thermal, and wettability properties of the composite was also analyzed. The TEM and FTIR confirmed the formation of nanofiber, and the FTIR result showed a typical bond present in cellulose nanofibrillated fiber. The SEM and AFM showed good dispersion of the kenaf bast cellulose nanofibrilated fiber in PLA. The mechanical and thermal properties of the composite were significantly improved compared with the neat PLA. The wettability showed that the addition of CNF increased the hydrophilicity of the sample. The production of CNF through combine methods displayed comparable properties to those produced from conventional methods and the CNF preparation method in this study is simplified and adaptable for potential industrial application.

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Section: Introductionmentioning

confidence: 99%

The role of cellulose nanofibrillated fibers produced with combined supercritical carbon dioxide and high‐pressure homogenization process as reinforcement material in biodegradable polymer

et al. 2021

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“…The computational methodology developed could be useful for a variety of high-tech technologies in the petroleum, rubber latex, ink, and paint and coatings industries, where the agglomeration and flocculation of small particles must be controlled. 27,68,69 Although the mechanisms by which AAs are effective depends on the application of interest, several research and industrial groups focus on the interplay between the design and performance of AAs at the microscopic scale. [70][71][72][73][74][75] Accounting for the interplay between the structural rigidity and the collective effects of new synthetic AAs could allow us to infer their use in practical applications, which addresses current industrial needs.…”

Section: Discussionmentioning

confidence: 99%

Role of structural rigidity and collective behaviour in the molecular design of gas hydrate anti-agglomerants

Sicard

Striolo

2021

Mol. Syst. Des. Eng.

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“…It is assumed that the presence of the Π-Π interaction due to the aromatic SDBS head groups screens the electrostatic repulsion between the SDBS head groups, which then contributes to the decrease in the effective area occupied by surfactant head groups. The latter reason leads to the increment of the packing parameter of surfactant molecules which is more favorable towards the vesicle formation [56,57]. Comparing SDBS with other surfactants at 5 CMC, the larger particle size obtained for the AOT system may result from the increased steric demand of the two non-polar tails of the AOT molecules, thus leading to larger micelles and subsequently a larger particle size.…”

Section: Morphology Of Pnmamentioning

confidence: 98%

“…It is well-known that a larger number of micelle due to an increase in surfactant concentration leads to a particle size reduction [58]. In addition, the increase in the surfactant concentration can lead to a reduction in head group area, causing a higher packing parameter, and consequently resulting in vesicle formation to form hollow particles [56,57]. Nonetheless, no significant difference between the particles size of PNMA synthesized with SDBS at concentrations higher than 5 CMC was found (Table 1).…”

Section: Morphology Of Pnmamentioning

confidence: 99%

Synthesis and Characterization of Hollow-Sphered Poly(N-methyaniline) for Enhanced Electrical Conductivity Based on the Anionic Surfactant Templates and Doping

Direksilp

Sirivat

2020

Polymers

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Poly(N-methylaniline) (PNMA) is a polyaniline derivative with a methyl substituent on the nitrogen atom. PNMA is of interest owing to its higher solubility in organic solvents when compared to the unsubstituted polyaniline. However, the electrical conductivity of polyaniline derivatives suffers from chemical substitution. PNMA was synthesized via emulsion polymerization using three different anionic surfactants, namely sodium dodecylsulfate (SDS), sodium dodecylbenzenesulfonate (SDBS), and dioctyl sodium sulfosuccinate (AOT). The effects of surfactant structures and concentrations on electrical conductivity, doping level, crystallinity, morphology, and thermal stability were investigated. The re-doping step using perchloric acid (HClO4) as a dopant was sequentially proceeded to enhance electrical conductivity. PNMA synthesized in SDBS at five times its critical micelle concentration (CMC) demonstrated the highest electrical conductivity, doping level, and thermal stability among all surfactants at identical concentrations. Scanning electron microscopy (SEM) images revealed that the PNMA particle shapes and sizes critically depended on the surfactant types and concentrations, and the doping mole ratios in the re-doping step. The highest electrical conductivity of 109.84 ± 20.44 S cm−1 and a doping level of 52.45% were attained at the doping mole ratio of 50:1.

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Surfactants with aromatic headgroups for optimizing properties of graphene/natural rubber latex composites (NRL): Surfactants with aromatic amine polar heads

Abstract: Citation: T Ardyani et al. "Surfactants with aromatic headgroups for optimizing properties of graphene/natural rubber latex composites (NRL): Surfactants with aromatic amine polar heads.

Cited by 16 publications

References 62 publications

The role of cellulose nanofibrillated fibers produced with combined supercritical carbon dioxide and high‐pressure homogenization process as reinforcement material in biodegradable polymer

The role of cellulose nanofibrillated fibers produced with combined supercritical carbon dioxide and high‐pressure homogenization process as reinforcement material in biodegradable polymer

Role of structural rigidity and collective behaviour in the molecular design of gas hydrate anti-agglomerants

Synthesis and Characterization of Hollow-Sphered Poly(N-methyaniline) for Enhanced Electrical Conductivity Based on the Anionic Surfactant Templates and Doping

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