Xueping Yu scite author profile

High performance nanocomposites require well dispersion and high alignment of the nanometer-sized components, at a high mass or volume fraction as well. However, the road towards such composite structure is severely hindered due to the easy aggregation of these nanometer-sized components. Here we demonstrate a big step to approach the ideal composite structure for carbon nanotube (CNT) where all the CNTs were highly packed, aligned, and unaggregated, with the impregnated polymers acting as interfacial adhesions and mortars to build up the composite structure. The strategy was based on a bio-inspired aggregation control to limit the CNT aggregation to be sub 20–50 nm, a dimension determined by the CNT growth. After being stretched with full structural relaxation in a multi-step way, the CNT/polymer (bismaleimide) composite yielded super-high tensile strengths up to 6.27–6.94 GPa, more than 100% higher than those of carbon fiber/epoxy composites, and toughnesses up to 117–192 MPa. We anticipate that the present study can be generalized for developing multifunctional and smart nanocomposites where all the surfaces of nanometer-sized components can take part in shear transfer of mechanical, thermal, and electrical signals.

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Multiscale Study of Counterion-Induced Attraction and Bundle Formation of F-Actin Using an Ising-like Mean-Field Model

Carlsson

2003

Biophysical Journal

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An Ising-like counterion-binding model is developed and solved by a mean-field method. For G-actin, the calculated affinity constants of all the binding sites ranging from loose to tight binding match the experimental data. The model is used to calculate the interaction energy between two F-actin filaments. Within a certain counterion concentration range, a rapidly decaying attractive force between two parallel filaments is produced not only by the correlation of the counterion distributions on the two filaments, but also by the correlation of the configurations of the two filaments with fixed counterion positions, which has been ignored in previous calculations. The bundling energy depends strongly on the configuration of the filaments. Upon bundling, the tightly bound counterion site is not affected, but the medium and loosely bound ones are. The model reproduces the observed minimal divalent counterion concentration for bundling, and naturally predicts the resolubilization of bundles which is seen in recent experiments. At the optimal counterion concentration, we obtain a bundling energy of approximately -0.01 eV per monomer along the filament. The counterion valence strongly affects the optimal counterion concentration, but has only minor effects on the optimal bundling energy. We show that the attractive potential between filaments can be simplified as the sum of interactions between their monomers. This simplification makes it possible to calculate the exact free energy of a two-F-actin-filament system. We are thus able to probe the effects of filament length on F-actin bundling and obtain a critical length for bundling of 59 monomers at 1 microM monomer concentration and pH=7.2.

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Triboelectric charging behaviors and photoinduced enhancement of alkaline earth ions doped inorganic perovskite triboelectric nanogenerators

Wang

Yang

et al. 2020

Nano Energy

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A tracheal scaffold of gelatin-chondroitin sulfate-hyaluronan-polyvinyl alcohol with orientated porous structure

Qian

Chen

et al. 2017

Carbohydrate Polymers

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The prediction on mechanical properties of 4-step braided composites via two-scale method

Cui

2007

Composites Science and Technology

121

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Quantum phase and persistent magnetic moment current and Aharonov-Casher effect in as=12mesoscopic ferromagnetic ring

Cao

Han

1997

Phys. Rev. B

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The quantum phase and persistent magnetic moment current exist in a sϭ1/2 mesoscopic ferromagnetic ring via the Aharonov-Casher effect at finite temperature because of the excitation and propagation of spin waves. We regarded the spin wave as a kind of boson propagating on a sϭ1/2 ferromagnetic background with a magnetic moment ϭϪe z . The persistent magnetic moment current is in direct proportion to k B T at low temperature.

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High efficiency solar cells tailored using biomass-converted graded carbon quantum dots

Liu

et al. 2019

Nanoscale

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Xueping Yu

Stabilizing vitamin D₃by conformationally selective co-crystallization

Bio-Inspired Aggregation Control of Carbon Nanotubes for Ultra-Strong Composites

Multiscale Study of Counterion-Induced Attraction and Bundle Formation of F-Actin Using an Ising-like Mean-Field Model

Triboelectric charging behaviors and photoinduced enhancement of alkaline earth ions doped inorganic perovskite triboelectric nanogenerators

A tracheal scaffold of gelatin-chondroitin sulfate-hyaluronan-polyvinyl alcohol with orientated porous structure

The prediction on mechanical properties of 4-step braided composites via two-scale method

Quantum phase and persistent magnetic moment current and Aharonov-Casher effect in as=12mesoscopic ferromagnetic ring

High efficiency solar cells tailored using biomass-converted graded carbon quantum dots

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Xueping Yu

Stabilizing vitamin D3by conformationally selective co-crystallization

Bio-Inspired Aggregation Control of Carbon Nanotubes for Ultra-Strong Composites

Multiscale Study of Counterion-Induced Attraction and Bundle Formation of F-Actin Using an Ising-like Mean-Field Model

Triboelectric charging behaviors and photoinduced enhancement of alkaline earth ions doped inorganic perovskite triboelectric nanogenerators

A tracheal scaffold of gelatin-chondroitin sulfate-hyaluronan-polyvinyl alcohol with orientated porous structure

The prediction on mechanical properties of 4-step braided composites via two-scale method

Quantum phase and persistent magnetic moment current and Aharonov-Casher effect in as=12mesoscopic ferromagnetic ring

High efficiency solar cells tailored using biomass-converted graded carbon quantum dots

Contact Info

Product

Resources

About

Stabilizing vitamin D₃by conformationally selective co-crystallization