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Application of one-dimension shuttle-shaped silicon nanometer materials as anti-counterfeiting ink

A silicon nanometer and shuttle-shaped technology, applied in the field of silicon nanomaterials, can solve the problems of high difficulty in the synthesis of inorganic fluorescent materials, difficulty in achieving diversified anti-counterfeiting effects, poor fluorescence stability, etc., to achieve long-range anti-counterfeiting, good excitation wavelength dependence, Good fluorescent effect

Active Publication Date: 2016-01-13
SUZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Among the current mainstream anti-counterfeiting materials, organic fluorescent materials are unsaturated molecules with large conjugated bodies, mostly excited by sunlight, and used for decoration with obvious colors, but the fluorescence stability is poor and easy to oxidize and decompose; in addition, inorganic fluorescent materials synthesized at high temperature The synthesis of fluorescent materials is difficult, poor in water resistance, and difficult to achieve diversified anti-counterfeiting effects【Qu, S.N.; Wang, X.Y.; Lu, Q.P.; Liu, X.Y.; Wang, L.J.Angew.Chem.Int.Ed.2012,51,12215 -12218. Wang, J.; Wang, C.F.; Chen, S. Angew. Chem. Int. Ed. 2012, 51, 9297-9301. Zhang, Y.H.; Zhang, L.X.; Deng, R.R.; Tian, ​​J.; , Y.; Jin, D.; Liu, X.G.J.Am.Chem.Soc., 2014, 136, 4893-4896]

Method used

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  • Application of one-dimension shuttle-shaped silicon nanometer materials as anti-counterfeiting ink
  • Application of one-dimension shuttle-shaped silicon nanometer materials as anti-counterfeiting ink
  • Application of one-dimension shuttle-shaped silicon nanometer materials as anti-counterfeiting ink

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] (1) Preparation of one-dimensional fusiform fluorescent silicon nanomaterials

[0027] Add 3ml of aminopropyltrimethoxysilane to 25ml of 0.5g of trisodium citrate dihydrate solution dissolved in nitrogen protection, then add 1ml of 0.1M ferric chloride solution, and fully stir overnight.

[0028] The reaction precursor solution is placed in a microwave reactor, and the control conditions are as follows:

[0029] Microwave power: 100W; Reaction temperature: 150°C; Reaction time: 15min.

[0030]The material obtained from the reaction was dialyzed to neutral in deionized water to obtain the final product.

[0031] (2) Using one-dimensional fusiform fluorescent silicon nanomaterials for anti-counterfeiting preparation

[0032] The prepared one-dimensional fusiform fluorescent silicon nanomaterials with excitation wavelength dependence were used as anti-counterfeiting ink to carry out anti-counterfeiting dyeing of leaf veins and plant fibers.

Embodiment 2

[0034] (1) Preparation of one-dimensional fusiform fluorescent silicon nanomaterials

[0035] Add 3ml of aminopropyltrimethoxysilane to 25ml of a nitrogen-protected solution dissolved in 3.5g of trisodium citrate dihydrate, then add 0.8ml of 0.1M ferric nitrate solution, and stir overnight.

[0036] The reaction precursor solution is placed in a microwave reactor, and the control conditions are as follows:

[0037] Microwave power: 100W; Reaction temperature: 150°C; Reaction time: 15min.

[0038] The material obtained from the reaction was dialyzed to neutral in deionized water to obtain the final product.

[0039] (2) Using one-dimensional fusiform fluorescent silicon nanomaterials for anti-counterfeiting preparation

[0040] The prepared one-dimensional fusiform fluorescent silicon nanomaterial with excitation wavelength dependence is injected into the ink cartridge of an inkjet printer as anti-counterfeiting ink, and various anti-counterfeiting patterns are printed out by...

Embodiment 3

[0042] (1) Preparation of one-dimensional fusiform fluorescent silicon nanomaterials

[0043] Add 3ml of aminopropyltrimethoxysilane to 25ml of citric acid solution dissolved in 0.6g of citric acid protected by nitrogen, then add 1ml of 0.1M ferric chloride solution, and fully stir overnight.

[0044] The reaction precursor solution is placed in a microwave reactor, and the control conditions are as follows:

[0045] Microwave power: 100W; Reaction temperature: 150°C; Reaction time: 15min.

[0046] The material obtained from the reaction was dialyzed to neutral in deionized water to obtain the final product.

[0047] (2) Using one-dimensional fusiform fluorescent silicon nanomaterials for anti-counterfeiting preparation

[0048] The prepared one-dimensional fusiform fluorescent silicon nanomaterials with excitation wavelength dependence are used as anti-counterfeiting ink to obtain anti-counterfeiting patterns and characters through ordinary stamps.

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Abstract

The invention discloses application of one-dimension shuttle-shaped silicon nanometer materials as anti-counterfeiting ink. The one-dimension shuttle-shaped silicon nanometer materials are prepared through a silicon source, and the obtained one-dimension shuttle-shaped silicon nanometer materials are used as the anti-counterfeiting ink for preparing anti-counterfeiting marks. The one-dimension shuttle-shaped silicon nanometer materials are quite good in fluorescent property, high in quantum yield and high in light stability and has good laser wavelength dependence, the prepared anti-counterfeiting marks can display light of different colors under the illumination of lasers of different wavelengths, and a quite good anti-counterfeiting effect can be achieved; compared with traditional organic fluorescent dyes, the shuttle-shaped silicon nanometer materials have higher fluorescent stability, and the long-time anti-counterfeiting effect can be easily achieved.

Description

technical field [0001] The invention belongs to the technical field of silicon nanometer materials, and relates to the application of fluorescent silicon nanometer materials, in particular to the application of one-dimensional shuttle-shaped silicon nanometer materials as anti-counterfeit inks. Background technique [0002] With the improvement of people's living standards, a wide range of commodities are promoting the rapid development of the commodity economy, and at the same time, annoying counterfeit products have also entered the circulation market. All kinds of fake and shoddy goods often make people deceived and suffer losses. Therefore, anti-counterfeiting and counterfeiting identification have always been a topic that people generally pay attention to, and it is also an important means for each manufacturer, businessman and consumer to protect their own interests. The fluorescent anti-counterfeiting technology is an advanced anti-counterfeiting technology that is c...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D11/50D06P1/673C09K11/59
Inventor 何耀宋斌钟旖菱
Owner SUZHOU UNIV