Dielectric, mechanical and electro-stimulus response properties studies of polyurethane dielectric elastomer modified by carbon nanotube-graphene nanosheet hybrid fillers

Chen, Tian; Pan, Lifeng; Lin, Minchao; Wang, Bendong; Liu, Lei; Li, Yongchao; Qiu, Jinhao; Zhu, Kongjun

doi:10.1016/j.polymertesting.2015.08.001

Cited by 53 publications

(14 citation statements)

References 40 publications

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“…Stimulus responsive polymers , have recently attracted more and more interest. They are able to respond to various stimuli like temperature, , pH, − stress, , voltage, − and light. − Because the temperature can be easily controlled, thermoresponsive polymers are extensively studied. An aqueous thermoresponsive polymer solution presents an abrupt change of transmittance from transparent to turbid once the external temperature is above the transition temperature (TT). , This change is caused by the changed interactions between hydrophilic and hydrophobic groups in the polymer with the surrounding water upon heating.…”

Section: Introductionmentioning

confidence: 99%

Synergistic Stain Removal Achieved by Controlling the Fractions of Light and Thermo Responsive Components in the Dual-Responsive Copolymer Immobilized on Cotton Fabrics by Cross-Linker

Zhang

et al. 2021

ACS Appl. Mater. Interfaces

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Enhanced synergistic stain removal is realized by tailoring the comonomer fractions of a light- and thermo-dual responsive copolymer, which is immobilized on cotton fabrics by a cross-linker. The copolymer poly(acrylamide azobenzene-co-ethylene glycol methacrylate-co-triethylene glycol methyl ether methacrylate), denoted P(AAAB1-co-EGMA2-co-MEO3MA17), is prepared by the ATRP polymerization method. The present molar ratio for these monomers is 1:2:17. Because of the existence of the light-responsive AAAB unit, the transition temperature of its aqueous solution under UV radiation is shifted to 39 °C, which is 2 °C higher than that in ambient conditions. This increase is caused by the trans–cis isomerization from the azobenzene groups, indicating an increased hydrophilicity of P(AAAB1-co-EGMA2-co-MEO3MA17) under UV radiation. After being immobilized onto cotton fabrics by a cross-linker, they are also dual-responsive. The equilibrium swelling ratio (ESR) of the cotton fabrics is further increased after UV radiation. Compared to our former investigation, the reduction of the AAAB molar fraction from 0.1 to 0.05 causes an increase of the ESR value by 10%. Moreover, the stain removal efficiency of the cotton fabrics immobilized with P(AAAB1-co-EGMA2-co-MEO3MA17) by cross-linker is also significantly improved under UV radiation. The hydrophilicity of the copolymer mainly from the MEO3MA units is crucial to the cleaning capability. Additionally lowering the attachment between stain and the copolymer coating on the cotton fabrics by trans–cis isomerization in those AAAB units also favors the cleaning. Hence, the stain removal is strongly improved by optimizing the fraction of light- versus thermo-responsive components in the copolymer, which can profoundly reduce the consumption of chemical detergents and energy during laundry.

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Section: Introductionmentioning

confidence: 99%

Synergistic Stain Removal Achieved by Controlling the Fractions of Light and Thermo Responsive Components in the Dual-Responsive Copolymer Immobilized on Cotton Fabrics by Cross-Linker

Zhang

et al. 2021

ACS Appl. Mater. Interfaces

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“…Environmentally responsive sensors are more sensitive, selective than conventional sensors [10][11][12][13]. The environmental responsive electrochemical sensor is modified with working electrodes mainly composed of stimuliresponsive polymers and conductive nano-materials composite [14].…”

Section: Introductionmentioning

confidence: 99%

Highly Sensitive Temperature‐responsive Sensor Based on PS‐PDEA‐PS/C₆₀‐MWCNTs for Reversible Switch Detection of Catechol

Chen

Zhao

Li³

et al. 2019

Electroanalysis

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A new type of temperature‐responsive electrochemical sensor was constructed based on a glass carbon electrode modified by the composite containing temperature‐responsive polymer polystyrene‐poly N, N‐diethyl acrylamide‐polystyrene (PS‐PDEA‐PS) and fullerenes‐carboxylate multi‐walled carbon nanotubes (C60‐MWCNTs). The sensor was used for the electrochemical detection of catechol (CC). When the temperature is higher than the critical temperature (LCST) of PS‐PDEA‐PS, the electrochemical behavior of CC can be detected, which it is in the “on” state. When the temperature is lower than LCST, the composite modified film is in the “off” state and the electrochemical behavior of CC was not detected. Under the best experimental conditions, the sensor has a good detection range for catechol from 4.0 to 135.0 μM, with a LOD of 1.45 μM. In addition, the proposed sensor has good stability and reproducibility, and was successfully applied to the determination of catechol in real tap water.

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“…In addition, the type of additives used, dispersion levels, and the interaction between elastomers and additives are also of major concern. 1,2,[5][6][7][8][9][10] Elastomers tend to have high dielectric constant under relaxed conditions versus stretch conditions. 11 The relative change in polarization under different strain conditions gives low prospect for the use of these elastomers as energy generators, although these elastomers can retain a high degree of mechanical compliance.…”

Section: Introductionmentioning

confidence: 99%

Thermal, mechanical, dielectric, and morphological study of dielectric filler–based thermoplastic nanocomposites for electromechanical applications

Poudel

Walsh

Kennedy

et al. 2018

Journal of Thermoplastic Composite Materials

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Dielectric nanocomposite elastomers based on poly(styrene-ethylene/butylene-styrene) (SEBS) and SEBS-grafted-maleic anhydride (SEBS-g-MA) with barium titanate (BT) suitable for electroactive applications were successfully manufactured by using two corotating twin extrusion systems. The main purpose of the work was to investigate the thermal, mechanical, dielectric, and morphological effects of additives on SEBS and SEBS-g-MA to widen their applications for electroactive applications using fast and more cost-effective simple production process. The morphological characterization showed a good and bad dispersion of BT into SEBS-g-MA and SEBS with 34.9% and −3% dielectric permittivity change in SEBS-g-MA and SEBS upon addition of 10 wt% BT. In addition, dielectric permittivity change, thermal change (enthalpy relaxation and thermal transitions), and mechanical (Young’s modulus, hysteresis loss under multiple stress cycles, storage modulus, loss modulus, and tan δ) properties of elastomers were found to be a function of additive concentration, compatibility and interaction between elastomers and additive type, orientation of additives, and reinforcing factors of additives in elastomers. A simple and effective modeling technique was used to demonstrate the effects of dielectric properties on nanocomposites due to poor dispersion of additives.

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Dielectric, mechanical and electro-stimulus response properties studies of polyurethane dielectric elastomer modified by carbon nanotube-graphene nanosheet hybrid fillers

Cited by 53 publications

References 40 publications

Synergistic Stain Removal Achieved by Controlling the Fractions of Light and Thermo Responsive Components in the Dual-Responsive Copolymer Immobilized on Cotton Fabrics by Cross-Linker

Synergistic Stain Removal Achieved by Controlling the Fractions of Light and Thermo Responsive Components in the Dual-Responsive Copolymer Immobilized on Cotton Fabrics by Cross-Linker

Highly Sensitive Temperature‐responsive Sensor Based on PS‐PDEA‐PS/C₆₀‐MWCNTs for Reversible Switch Detection of Catechol

Thermal, mechanical, dielectric, and morphological study of dielectric filler–based thermoplastic nanocomposites for electromechanical applications

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Dielectric, mechanical and electro-stimulus response properties studies of polyurethane dielectric elastomer modified by carbon nanotube-graphene nanosheet hybrid fillers

Cited by 53 publications

References 40 publications

Synergistic Stain Removal Achieved by Controlling the Fractions of Light and Thermo Responsive Components in the Dual-Responsive Copolymer Immobilized on Cotton Fabrics by Cross-Linker

Synergistic Stain Removal Achieved by Controlling the Fractions of Light and Thermo Responsive Components in the Dual-Responsive Copolymer Immobilized on Cotton Fabrics by Cross-Linker

Highly Sensitive Temperature‐responsive Sensor Based on PS‐PDEA‐PS/C60‐MWCNTs for Reversible Switch Detection of Catechol

Thermal, mechanical, dielectric, and morphological study of dielectric filler–based thermoplastic nanocomposites for electromechanical applications

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Highly Sensitive Temperature‐responsive Sensor Based on PS‐PDEA‐PS/C₆₀‐MWCNTs for Reversible Switch Detection of Catechol