Pre-radiation synthesis method for recycling-free natural polysaccharide hydrogel-base photocatalyst

A natural polysaccharide and photocatalyst technology, applied in the field of nuclear biology, can solve the problems of poor stress resistance, uneven distribution, low gel strength, etc., and achieve the effects of mild reaction conditions, avoiding secondary pollution, and high photocatalytic efficiency

Active Publication Date: 2018-03-20
HUBEI UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Due to the ubiquitous problems of hydrogel properties, the uniformity of the network structure is insufficient, and the stress is poor.
The inhomogeneity of the network structure is one of the key factors causing the low mechanical properties of traditional hydrogels. Hydrogels crosslinked by traditional chemical crosslinking agents may have inhomogeneity in the network structure during the preparation process, resulting in low gel strength. , brittle
Therefore, when an external force is applied, the distribution of stress in the network is not uniform, and the polymer chains are easily broken in the stress concentration area to form tiny cracks, and then the stress propagates along the cracks, eventually leading to hydrogel damage.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] Titanium dioxide (CdTe QDs / TiO 2 , 0.2wt%) and other main substrates were mixed to form a stable dispersion, and the obtained CdTe QDs / TiO 2 / PVA / CTS polymer, as the first layer network structure of the hydrogel. The nitrogen isopropylacrylamide (NIPAAm) solution (2wt%) is placed under the electron beam for pre-radiation crosslinking reaction, the selected electron beam energy is 1MeV, the radiation dose is 5kGy, and the dose rate is 5kGy / pass, which is NIPAAm prepolymer solution. Introducing NIPAAm prepolymer solution into CdTe QDs / TiO by impregnation and infiltration 2 / PVA / CTS polymer network structure, and placed under the electron beam for radiation cross-linking reaction again, the selected electron beam energy is 1MeV, the radiation dose is 30kGy, and the dose rate is 5kGy / pass, forming a hydrogel The second layer network structure.

[0029] The obtained samples were washed with water, dried, crushed, sieved, and classified to obtain double-network recovery-f...

Embodiment 2

[0031]Hydroxypropyl cellulose (HPC, 10wt%), collagen (Collagen, 2wt%), triethanolamine (2wt%), CdTe quantum dots modified graphene oxide (CdTe QDs / GO, 2wt%) and other main bases The materials were mixed to form a stable dispersion, and the resulting CdTe QDs / GO / Collagen / HPC polymer was prepared by cyclic freeze-thaw as the first network structure of the hydrogel. Acrylic acid (Ac) solution (10wt%) is placed under the electron beam for pre-radiation crosslinking reaction, the selected electron beam energy is 1MeV, the radiation dose is 40kGy, and the dose rate is 20kGy / pass, which is the Ac prepolymer solution. The Ac prepolymer solution was impregnated into the network structure of CdTe QDs / GO / Collagen / HPC polymer by impregnation and infiltration, and placed under the electron beam for radiation crosslinking reaction again. The selected electron beam energy was 1 MeV, and the radiation dose The dose rate is 90kGy, and the dose rate is 30kGy / pass, forming the second layer netwo...

Embodiment 3

[0034] Modified with hydroxypropyl ethyl cellulose (HPEC, 6_wt%), poly 2-acrylamido-2-methylpropanesulfonic acid (PAMPS, 0.8wt%), disodium hydrogen phosphate (1wt%), CdTe quantum dots Carbon nitride (CdTe QDs / C 3 N 4 , 0.6wt%) and other main substrates were mixed to form a stable dispersion, and the obtained CdTe QDs / C 3 N 4 / PAMPS / HPEC polymer, as the first layer network structure of the hydrogel. Acrylamide (Am) solution (10_wt%) is placed under the electron beam to carry out pre-radiation cross-linking reaction, the selected electron beam energy is 1MeV, the radiation dose is 20kGy, and the dose rate is 10kGy / pass, which is the Am prepolymer solution . The Am prepolymer solution was impregnated into the CdTe QDs / C 3 N 4 / PAMPS / HPEC polymer network structure, and placed under the electron beam for radiation cross-linking reaction again, the selected electron beam energy is 1MeV, the radiation dose is 60kGy, and the dose rate is 10kGy / pass, forming a hydrogel The secon...

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Abstract

The invention provides a pre-radiation synthesis method for a recycling-free natural polysaccharide hydrogel-base photocatalyst, which belongs to the technical field of nuclear biology, and solves thetechnical problems that natural polysaccharide hydrogel-base photocatalyst prepared by virtue of existing methods is low in photocatalytic efficiency, difficult to recycle, poor in mechanical property and the like. The method comprises the following steps: mixing the main base materials including natural polysaccharide, an irradiation sensitizing agent, a pH adjuster, a nano-photocatalyst and thelike so as to form stable dispersion liquid, and carrying out circular freezing-unfreezing, so as to prepare a first-layer network structure of hydrogel; and preparing a prepolymer solution from low-dose pre-radiation monomers, enabling the prepolymer solution to infiltrate into the first-layer network structure of hydrogel, carrying out radiation crosslinking again on an obtained sample so as toobtain a second-layer network structure of hydrogel, so as to obtain the polymer, namely the dual-network recycling-free natural polysaccharide hydrogel-base photocatalyst. The method has the advantages of high photocatalytic efficiency, degradability, high strength, low cost and the like and does not need to be recycled.

Description

technical field [0001] The invention belongs to the technical field of nuclear biology, and relates to a pre-radiation synthesis method of a recovery-free natural polysaccharide hydrogel-based photocatalyst. Background technique [0002] Hydrogel is a three-dimensional interpenetrating network structure between liquid and solid. It is a hydrophilic polymer gel that can significantly swell in water but cannot be dissolved in water. Although hydrogel contains a lot of water, But it can show a certain shape like a solid. In particular, the double-network structure high-strength smart hydrogel based on natural polysaccharides is one of the key points and frontiers of polymer science research, and has extremely important research and development in medicine, catalysis, antibacterial, environmental protection and related fields. Value. [0003] Although various methods have been used to prepare hydrogels with different compositions, structures and properties, there are still som...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J31/26B01J31/38
CPCB01J31/06B01J31/26B01J31/38B01J35/004B01J35/026B01J37/009B01J37/34
Inventor 李月生
Owner HUBEI UNIV OF SCI & TECH
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