Effects of Finite Lengths of Chains on the Structural and Mechanical Properties of Polyethylene Fibers

Yeh, In‐Chul; Balzano, Luigi; Werff, H. van der; Mrozek, Randy A.; Lenhart, Joseph L.; Andzelm, Jan

doi:10.1021/acs.macromol.9b01944

Cited by 6 publications

(2 citation statements)

References 30 publications

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“…The stress at 0%–150% strain (I) exhibited a slight trend of change, that mainly came from the deformation of the fiber bundles being straightened from the relaxed state and the conformational change of the long chain of spandex. [ 55 ] When the samples were further stretched, the stress at 150%–410% (II) strain experienced a relatively sharp increase caused by a certain degree of pulling and sliding of the contacting parts of the different fiber bundles after the fiber bundles were straightened. [ 56 ] Compared with pure MS, Young's modulus, break elongation, and tensile break strength of o‐MWCNTs/o‐CB@MS decreased from 0.44 MPa, 497.0%, and 21.2 to 0.38 MPa, 443.9%, and 15.0 MPa, respectively, possibly due to the weakening of the entanglement tightness between the fibers during the repeated dip‐drying process.…”

Section: Resultsmentioning

confidence: 99%

Highly Stretchable, Knittable, Wearable Fiberform Hydrovoltaic Generators Driven by Water Transpiration for Portable Self‐Power Supply and Self‐Powered Strain Sensor

Luo,

Xie,

Liu

et al. 2023

Small

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The development of excellently stretchable, highly mobile, and sustainable power supplies is of great importance for self‐power wearable electronics. Transpiration‐driven hydrovoltaic power generator (HPG) has been demonstrated to be a promising energy harvesting strategy with the advantages of negative heat and zero‐carbon emissions. Herein, this work demonstrates a fiber‐based stretchable HPG with the advantages of high output, portability, knittability, and sustainable power generation. Based on the functionalized micro‐nano water diffusion channels constructed by the discarded mask straps (MSs) and oxidation‐treated carbon nanomaterials, the applied water can continuously produce electricity during the spontaneous flow and diffusion. Experimentally, when a tiny 0.1 mL of water encounters one end of the proposed HPG, the centimeter‐length device can yield a peak voltage of 0.43 V, peak current of 29.5 µA, and energy density of 5.833 mW h cm−3. By efficiently integrating multiple power generation units, sufficient output power can be provided to drive commercial electronic devices even in the stretched state. Furthermore, due to the reversibility of the electrical output during dynamic stretching‐releasing, it can passively convert physiological activities and motion behaviors into quantifiable and processable current signals, opening up HPG's application in the field of self‐powered wearable sensing.

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Section: Resultsmentioning

confidence: 99%

Highly Stretchable, Knittable, Wearable Fiberform Hydrovoltaic Generators Driven by Water Transpiration for Portable Self‐Power Supply and Self‐Powered Strain Sensor

Luo,

Xie,

Liu

et al. 2023

Small

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show abstract

“…Although Young moduli measured via MD simulations have a high dependence on the empirical force fields used, an apparent agreement between the experiment and simulation can still be achieved. Young moduli ranges from 280 to 380 GPa for PE, ,,− 180 to 350 GPa for PPTA, ,− and 86 to 213 GPa for cellulose ,,− …”

Section: Introductionmentioning

confidence: 99%

Quantifying the Contribution of London Dispersion Interaction and Adjacent Chain Packing on the Polymer Stiffness: A DFT Study

Han

Quan³

et al. 2023

Crystal Growth & Design

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Linear polymers often have the role of sustaining tension along their chains, and thus, the longitudinal modulus of such polymers has been of great interest. To quantify the contribution of individual chain properties and their association with crystals, we studied the deformation behavior of three major classes of linear polymers, polyethylene, poly(p-phenylene terephthalamide), henceforth abbreviated as PPTA, and cellulose, using density functional theory (DFT). Polyethylene, the simplest polymer, elongates by simply widening its bond angle and stretching its C−C bonds. The singlechain spring constant along the chain is not affected by packing, and the longitudinal Young's modulus is proportional to the number of chains per cross-sectional area. In contrast, the torsion around chemical bonds plays an important role in the deformation of PPTA and cellulose. Finally, lateral packing contributes to the stiffening of individual chains, the effect of which can be modeled by either removing the correction for London dispersion interactions or removing adjacent chain packing. This finding highlights the different structure−property relationship between crystalline polymers with and without hydrogen-bonding networks and will provide molecular insights that may assist the molecular design of high-performance polymeric materials.

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Recent advances in the synthetic method and mechanism for the important N‐heterocyclic compound of 3‐methylindole

Sun

et al. 2022

Journal of Heterocyclic Chem

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3-Methylindole, as an important N-heterocycle compound, is widely applied in the fields of medicine, agriculture and industry for synthesizing momentous drugs and plant growth regulators as well as the production of spices. Therefore, the efficient synthesis of 3-methylindole is very important and has attracted much attention from chemists. In this paper, the synthetic methods of 3-methylindole were classified into Fischer proton rearrangement, radical reaction, coupling cyclization, electrophilic reaction, nucleophilic reaction, reduction reaction and oxidation reaction. Also, the recent advances in the synthetic method and mechanism were reviewed, in which the most promising method for the green and cheap synthesis of 3-methylindole from biomassderived glycerol and aniline was proposed.

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Effects of Finite Lengths of Chains on the Structural and Mechanical Properties of Polyethylene Fibers

Cited by 6 publications

References 30 publications

Highly Stretchable, Knittable, Wearable Fiberform Hydrovoltaic Generators Driven by Water Transpiration for Portable Self‐Power Supply and Self‐Powered Strain Sensor

Highly Stretchable, Knittable, Wearable Fiberform Hydrovoltaic Generators Driven by Water Transpiration for Portable Self‐Power Supply and Self‐Powered Strain Sensor

Quantifying the Contribution of London Dispersion Interaction and Adjacent Chain Packing on the Polymer Stiffness: A DFT Study

Recent advances in the synthetic method and mechanism for the important N‐heterocyclic compound of 3‐methylindole

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