Xuanjun Ning scite author profile

Hydrogels with a three-dimensional network structure are particularly outstanding in water absorption and water retention because water exists stably in the interior, making the gel appear elastic and solid. Although traditional hydrogels have good water absorption and high water content, they have poor mechanical properties and are not strong enough to be applied in some scenarios today. The proposal of double-network hydrogels has dramatically improved the toughness and mechanical strength of hydrogels that can adapt to different environments. Based on ensuring the properties of hydrogels, they themselves will not be damaged by excessive pressure and tension. This review introduces preparation methods for double-network hydrogels and ways to improve the mechanical properties of three typical gels. In addition to improving the mechanical properties, the biocompatibility and swelling properties of hydrogels enable them to be applied in the fields of biomedicine, intelligent sensors, and ion adsorption.

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Non-gelated polymeric photonic crystal films

Chu

Ding²,

Ning³

et al. 2022

Front. Chem.

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A rapid curing method for the preparation of colloidal photonic crystal films is presented. Firstly, a colloidal crystal array template was prepared by self-assembly of nanospheres, and then a dilute polymer solution was poured into the gap of the template. Then the composite photonic film was obtained as the polymer solution was cured. Such films have good properties in mechanical strength, anti pH interference, rapid solvent response and are easy to preserve. The films show good linear response to ethanol aqueous solutions of different concentrations, and the response equilibrium takes less than 20 s. The films also show long-term stability and reusability, and further functionalization can make the films multi-sensitive.

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Inverse Colloidal Crystal Polymer Coating with Monolayer Ordered Pore Structure

et al. 2022

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A functional lens coating, based on the structure of inversed colloidal photonic crystals, is proposed. The color-reflecting colloidal crystal was first prepared by self-assembly of nano-colloids and was infiltrated by adhesive polymer solution. As the polymer was crosslinked and the crystal array was removed, a robust mesh-like coating was achieved. Such a functional coating has good transmittance and has a shielding efficiency of ~9% for UV–blue light according to different particle sizes of the nano-colloids, making it an ideal functional material.

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Thermal-induced Phase Transition Hydrogel Revealed with Photonic Crystal

Wang¹,

Yuan²,

Wang³

et al. 2023

ES Energy Environ.

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Xuanjun Ning

Research Advances in Mechanical Properties and Applications of Dual Network Hydrogels

Non-gelated polymeric photonic crystal films

Inverse Colloidal Crystal Polymer Coating with Monolayer Ordered Pore Structure

Thermal-induced Phase Transition Hydrogel Revealed with Photonic Crystal

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