Polymer Nanocomposites of Surface‐Modified Graphene. I: Thermal and Electrical Properties of Poly(Vinyl Alcohol)/Aminoacid‐Functionalized Graphene

Lima, Thaíses B. S.; Silva, Valdilene O.; Araújo, Elmo S.; Araújo, Patrícia Lopes Barros de

doi:10.1002/masy.201800051

Cited by 13 publications

(7 citation statements)

References 35 publications

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“…The XRD patterns for both materials showed a broad diffraction peak centered at around 2θ = 22.5°, corresponding to the (002) planes of hexagonal graphite carbon. 12,17 This peak is slightly shifted to lower angles compared with the graphite peak at 2θ = 26.33°, 30 indicating a larger spacing between planes. Additionally, both materials show peaks at around 2θ = 43.8°which corresponds to the (100) planes of graphite associated with a partially graphited amorphous structure in the nanofibers.…”

mentioning

confidence: 93%

Ultramicroporous Carbon Nanofibrous Mats for Hydrogen Storage

Vergara-Rubio

Ribba

Borregales

et al. 2022

ACS Appl. Nano Mater.

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Porous carbons with pore sizes in the ultramicropore range (0.6–0.7 nm) are of great interest for hydrogen storage, transportation, and application as a clean energy source. In particular, when they are nanomaterials, their high surface-to-volume ratio maximizes H2 adsorption capacity. Existing ultramicroporous carbon materials are often in powder form and obtained by environmentally hazardous processes. Here, two highly ultramicroporous, self-supporting, and nanostructured 2D carbonaceous materials with high H2 sorption capacity were developed from poly(vinyl alcohol) electrospun mats. The mats were stabilized by a heat treatment up to 195 °C, and subsequently, two strategies were followed: direct pyrolysis of the sample at 800 °C or application of an acidic activation treatment followed by pyrolysis. Both obtained materials showed high H2 adsorption capacity (6.48 and 11.47 mmol/g at 10 bar), similarly to or better than other materials reported in the literature, with the great advantage of being self-supporting. Moreover, both materials achieve complete desorption. Furthermore, the addition of the acidic activation enhances H2 adsorption capacity due to the greater ultramicroporous volume. This work will allow the development of a new range of ultramicroporous carbon materials obtained from green polymeric nanofibers for H2 storage.

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confidence: 93%

Ultramicroporous Carbon Nanofibrous Mats for Hydrogen Storage

Vergara-Rubio

Ribba

Borregales

et al. 2022

ACS Appl. Nano Mater.

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“…7–13 The third kind of polymer mixtures worth mentioning are modified by antistatic agents, for instance, using polymer antistatic agent, ionic liquid, carbon nanotubes, graphene, or conductive carbon black to modify materials for improving their antistatic properties. 14–19…”

Section: Introductionmentioning

confidence: 99%

Polyoxymethylene/thermoplastic polyamide elastomer blends: Morphology, crystallization, mechanical, and antistatic properties

Fang

Fan

Li³

et al. 2021

High Performance Polymers

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Polyoxymethylene/thermoplastic polyamide elastomer (POM/TPAE) blends were prepared through melt extrusion in an attempt to improve the toughness and electrical properties of POM. The TPAE used in the study had the permanent antistatic effect, and its brand was MV2080. Acrylonitrile-butadiene-styrene copolymer grafted maleic anhydride (ABS-g-MAH) was added while preparing the POM/TPAE blends to improve the compatibility between TPAE and POM. The effects of TPAE and ABS-g-MAH on the morphologies, melting crystallization, dynamic mechanical analysis, surface resistivity and mechanical properties were examined in detail with various techniques. It was found that after adding 15 phr MV2080 as the modifier, the distribution of MV2080 in the blends was presented as many continuous long strips, which can be called “antistatic networks.” When using ABS-g-MAH as a compatibilizer, the surface resistivity of the samples 5#, 6#, and 7# which all containing 15 phr MV2080 with the best antistatic properties reached 107 Ω, and the impact strength of the above samples was all increased by more than 66%.

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“…[7][8][9][10][11][12][13] The third kind of polymer mixtures worth mentioning are modified by antistatic agents, for instance, using polymer antistatic agent, ionic liquid, carbon nanotubes, graphene, or conductive carbon black to modify materials for improving their antistatic properties. [14][15][16][17][18][19] In addition to the above methods, dynamic vulcanization can also be used for polymer modification. 20,21 As we all know, "dynamic vulcanization technology" refers to the combination of unvulcanized rubber elastomer and thermoplastic resin under the action of vulcanizing agent, high temperature and shearing.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Preparation of polyoxymethylene/methyl vinyl silicone rubber/thermoplastic polyurethane ternary thermoplastics vulcanizates with good toughness properties

Fang

Fan

Li³

2021

Journal of Thermoplastic Composite Materials

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Novel thermoplastic vulcanizates (TPVs) based on polyoxymethylene (POM) and methyl vinyl silicone rubber (MVQ) have been prepared by dynamic vulcanization process through a batch mixer. During the preparation of TPV blends, Di-(tert butyl peroxyisopropyl) benzene (BIBP) was used as the curing agent in order to make MVQ cross-linked and TPU was used to coat MVQ for improving the compatibility of MVQ and POM. In order to understand the influence of different compositions on TPV blends, five groups of experimental processes were described in detail. During these experiments, the amount of POM was reduced from 70phr to 30phr, that of MVQ was gradually increased from 18phr to 42 phr, and TPU was increased from 12phr to 28phr. In addition, the morphology and properties of TPVs were studied by DSC, FTIR, SEM, DMA and mechanical tests. The mechanical testing results showed that with the amount of POM decreasing and the total amount of MVQ and TPU increasing, the tensile strength of the TPV blends gradually was decreased, and the elongation at break was increased accordingly from 35.2 ± 6% of pure POM to 142.8 ± 11% of sample 5#.

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Polymer Nanocomposites of Surface‐Modified Graphene. I: Thermal and Electrical Properties of Poly(Vinyl Alcohol)/Aminoacid‐Functionalized Graphene

Cited by 13 publications

References 35 publications

Ultramicroporous Carbon Nanofibrous Mats for Hydrogen Storage

Ultramicroporous Carbon Nanofibrous Mats for Hydrogen Storage

Polyoxymethylene/thermoplastic polyamide elastomer blends: Morphology, crystallization, mechanical, and antistatic properties

Preparation of polyoxymethylene/methyl vinyl silicone rubber/thermoplastic polyurethane ternary thermoplastics vulcanizates with good toughness properties

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