Preparation method of high-molecular nano-composite thin film containing rare earth

A nanocomposite and polymer technology, applied in chemical instruments and methods, luminescent materials, etc., can solve the problems of limited application range, phase separation, poor dispersion, etc., and achieve broad application prospects, excellent optical properties, uniform and stable dispersion.

Inactive Publication Date: 2016-11-09
HEFEI PULFI WIRE TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The preparation methods of polymer rare earth compounds can generally be roughly divided into two types. One is that rare earth compounds are uniformly dispersed into monomers or polymers as dopants to make rare earth polymers that exist in a doped manner, which is called It is a doped rare-earth polymer; the doping method is simple, widely adaptable and practical, but it is a physical mixing method with many limitations: most rare-earth compounds have low affinity with resins, and high-concentration doping It is difficult to uniformly disperse the rare earth compound in the polymer matrix, and phase separation is easy to occur, the transparency of the material is deteriorated, and the strength is damaged.
Moreover, due to poor dispersion, it will also lead to quenching between fluorescent molecules, thereby reducing the fluorescence intensity and shortening the fluorescence lifetime, which ultimately limits its application range.

Method used

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  • Preparation method of high-molecular nano-composite thin film containing rare earth
  • Preparation method of high-molecular nano-composite thin film containing rare earth
  • Preparation method of high-molecular nano-composite thin film containing rare earth

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] (1) Prepare PAA solution with pH=6 and concentration of 0.20mol / L: weigh 2.057g (Mw=15000, 35%) polyacrylic acid sodium salt solution, dissolve it in water, adjust the pH value to 6.0, and then Adding an aqueous solution with pH=6.0 to calibrate to 50 mL can obtain a PAA solution with pH=6 and a concentration of 0.20 mol / L.

[0029] (2) configuration pH=6, concentration is the CeCl3 solution of 0.02mol / L: Weigh 1.8629g (Mw=372.58, 35%) cerium chloride heptahydrate powder, after dissolving it in water, adjust the pH value to 6.0, Then add an aqueous solution of pH=6.0 to calibrate to 50 mL to obtain a CeCl3 solution with pH=6 and a concentration of 0.20 mol / L.

[0030] (3) Configure a PDDA solution with a pH of 6 and a concentration of 0.01mol / L: weigh 0.40375g of polydiallyldimethylammonium chloride solution (Mw=(1-2)×105KDa, 20%), and After it is dissolved in water, adjust the pH value to 6.0, then add an aqueous solution with pH=6.0 to calibrate to 50mL, and then obt...

Embodiment 2

[0043] (1) Prepare PAA solution with pH=6 and concentration of 0.20mol / L: weigh 2.057g (Mw=15000, 35%) polyacrylic acid sodium salt solution, dissolve it in water, adjust the pH value to 6.0, and then Adding an aqueous solution with pH=6.0 to calibrate to 50 mL can obtain a PAA solution with pH=6 and a concentration of 0.20 mol / L.

[0044] (2) configuration pH=6, concentration is the CeCl3 solution of 0.02mol / L: Weigh 1.8629g (Mw=372.58, 35%) cerium chloride heptahydrate powder, after dissolving it in water, adjust the pH value to 6.0, Then add an aqueous solution of pH=6.0 to calibrate to 50 mL to obtain a CeCl3 solution with pH=6 and a concentration of 0.20 mol / L.

[0045] (3) Configure a PDDA solution with a pH of 6 and a concentration of 0.01mol / L: weigh 0.40375g of polydiallyldimethylammonium chloride solution (Mw=(1-2)×105KDa, 20%), and After it is dissolved in water, adjust the pH value to 6.0, then add an aqueous solution with pH=6.0 to calibrate to 50mL, and then obt...

Embodiment 3

[0049] (1) Prepare PAA solution with pH=6 and concentration of 0.20mol / L: weigh 2.057g (Mw=15000, 35%) polyacrylic acid sodium salt solution, dissolve it in water, adjust the pH value to 6.0, and then Adding an aqueous solution with pH=6.0 to calibrate to 50 mL can obtain a PAA solution with pH=6 and a concentration of 0.20 mol / L.

[0050] (2) configuration pH=6, concentration is the CeCl3 solution of 0.02mol / L: Weigh 1.8629g (Mw=372.58, 35%) cerium chloride heptahydrate powder, after dissolving it in water, adjust the pH value to 6.0, Then add an aqueous solution of pH=6.0 to calibrate to 50 mL to obtain a CeCl3 solution with pH=6 and a concentration of 0.20 mol / L.

[0051] (3) Configure a PDDA solution with a pH of 6 and a concentration of 0.05mol / L: weigh 2.0188g of polydiallyldimethylammonium chloride solution (Mw=(1-2)×105KDa, 20%), and After it is dissolved in water, adjust the pH value to 6.0, and then add an aqueous solution with pH=6.0 to calibrate to 50mL to obtain ...

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Abstract

The invention relates to a preparation method of high-molecular nano-composite thin film containing rare earth. The method comprises the steps that an anionic polyelectrolyte solution and a rare earth ion salt solution which are same in volume are mixed and stirred for 12 h to 24 h, and a negatively charged high-molecular rare earth compound nanoparticle solution is obtained; under the condition of 10 DEG C to 50 DEG C, a pretreated substrate is put into a cationic polyelectrolyte solution, standing and cleaning are conducted, the cleaned substrate is put into the negatively charged high-molecular rare earth compound nanoparticle solution, standing and cleaning are conducted, the above-mentioned steps are repeatedly conducted, and the high-molecular nano-composite thin film containing rare earth is obtained. The method is simple and easy to operate, and the obtained thin film has an excellent optical property and has a wide application prospect.

Description

technical field [0001] The invention belongs to the field of preparation of polymer nanocomposite materials, in particular to a preparation method of rare earth-containing polymer nanocomposite films. Background technique [0002] Rare earth elements (RareEarthElement) have optical, electrical, magnetic and other properties that other elements do not have due to the particularity of their atomic structure. In recent years, polymer rare earth compounds composed of rare earth elements and polymer materials have both the unique properties of rare earth and the characteristics of light weight, impact resistance and easy processing of polymers. They have been used in fluorescent materials, optical devices, catalysis, etc. Show broad application prospects. The preparation methods of polymer rare earth compounds can generally be roughly divided into two types. One is that rare earth compounds are uniformly dispersed into monomers or polymers as dopants to make rare earth polymers ...

Claims

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Application Information

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IPC IPC(8): C09K11/06
CPCC09K11/06C09K2211/182
Inventor 刘勇
Owner HEFEI PULFI WIRE TECH CO LTD
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