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Polypeptide-quantum dot nano composite material solution, and synthetic method thereof

A nanocomposite and synthesis method technology, applied in the field of one-step aqueous phase synthesis of polypeptide-quantum dot nanocomposite solution, can solve problems such as complex process and loss of quantum dot luminescent performance, and achieve simple method, short time and good reaction conditions controllable effect

Active Publication Date: 2014-07-02
SHENZHEN INST OF ADVANCED TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The process is complex, especially the cross-linking process often results in the loss of quantum dot luminescent properties

Method used

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  • Polypeptide-quantum dot nano composite material solution, and synthetic method thereof
  • Polypeptide-quantum dot nano composite material solution, and synthetic method thereof
  • Polypeptide-quantum dot nano composite material solution, and synthetic method thereof

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preparation example Construction

[0024] A synthetic method of a polypeptide-quantum dot nanocomposite solution provided by the invention comprises the following steps:

[0025] Step 1. Weigh 0.03~0.4g of cadmium chloride and 0.05~1.2g of thioglycerol and dissolve them in 100ml of ultrapure water, adjust the pH value of the solution to pH 9-10, and obtain the first precursor stock solution;

[0026] Step 2, weighing 0.03-0.06g of zinc sulfate and 0.02-0.1g of thioglycerol, and dissolving them in 10ml of ultrapure water, adjusting the pH value of the solution to a pH value of 9-10 to obtain the second precursor stock solution;

[0027] Step 3: Weighing 1-10 mg of the polypeptide and dissolving it in 1 ml of ultrapure water to obtain the third precursor stock solution;

[0028] Step 4: Weigh 0.01-0.04g of tellurium powder and 0.025-0.08g of sodium borohydride, and dissolve them in 1ml of ultrapure water, and let stand for 12 hours to obtain the fourth precursor stock solution;

[0029] Step 5: Take 1ml of the ...

Embodiment 1

[0032] Step 1. Preparation of the first precursor stock solution (precursor stock solution A): Weigh 0.03 g of cadmium chloride and 0.05 g of thioglycerol, dissolve them in 100 ml of ultrapure water, adjust the pH of the solution to 9, and set aside.

[0033] Step 2. Preparation of the second precursor stock solution (precursor stock solution B): Weigh 0.03 g of zinc sulfate and 0.02 g of thioglycerol, dissolve them in 10 ml of ultrapure water, adjust the pH of the solution to 9, and set aside.

[0034] Step 3. Preparation of the third precursor stock solution (precursor stock solution C): weigh 10 mg of the polypeptide, dissolve it in 1 ml of ultrapure water, and set aside.

[0035] Step 4. Preparation of the fourth precursor stock solution (precursor stock solution D): Weigh 0.040 g of tellurium powder and 0.08 g of sodium borohydride, dissolve them in 1 ml of ultrapure water, let stand for 12 hours, and set aside.

[0036] Step 5. Synthesis of polypeptide-quantum dot comple...

Embodiment 2

[0038] Step 1. Preparation of precursor stock solution A: Weigh 0.04 g of cadmium chloride and 0.1 g of thioglycerol, dissolve them in 100 ml of ultrapure water, adjust the pH of the solution to 10, and set aside.

[0039] Step 2. Preparation of precursor stock solution B: Weigh 0.05 g of zinc sulfate and 0.08 g of thioglycerol, dissolve them in 10 ml of ultrapure water, adjust the pH of the solution to 10, and set aside.

[0040] Step 3. Preparation of precursor stock solution C: Weigh 4 mg of polypeptide, dissolve in 1 ml of ultrapure water, and set aside.

[0041] Step 4. Preparation of precursor stock solution D: Weigh 0.01 g of tellurium powder and 0.025 g of sodium borohydride, dissolve in 1 ml of ultrapure water, let stand for 12 hours, and set aside.

[0042] Step 5. Synthesis of polypeptide-quantum dot complex: take 1ml of precursor stock solution A, add 0.04ml of precursor stock solution B, then add 0.02ml of precursor stock solution C, and finally add 0.05ml of prec...

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Abstract

The invention provides a synthetic method of a polypeptide-quantum dot nano composite material solution. The synthetic method comprises following steps: step 1, cadmium chloride and thioglycerol are weighted and are dissolved in ultrapure water, and pH value of an obtained mixed material is adjusted to be 9 to 10 so as to obtain a first precursor stock solution; step 2, zinc sulfate and thioglycerol are weighted and are dissolved in ultrapure water, and pH value of an obtained product is adjusted to be 9 to 10 so as to obtain a second precursor stock solution; step 3, a polypeptide is weighted, and is dissolved in ultrapure water so as to obtain a third precursor stock solution; step 4, tellurium powder and sodium borohydride are weighted and are dissolved in ultrapure water, and an obtained mixture is allowed to stand so as to obtain a fourth precursor stock solution; and step 5, the second precursor stock solution, the third precursor stock solution, and the fourth precursor stock solution with different volumes are added into the first precursor stock solution, an obtained mixed solution is heated, and then is cooled to room temperature so as to obtain the polypeptide-quantum dot nano composite material solution. The invention also provided the polypeptide-quantum dot nano composite material solution.

Description

technical field [0001] The invention relates to a synthesis method of a polypeptide-quantum dot nanocomposite, in particular to a one-step aqueous phase synthesis method of a polypeptide-quantum dot nanocomposite solution. Background technique [0002] Quantum dots are semiconductor nanocrystals composed of hundreds of thousands of atoms with a particle size of 1-100nm. They can receive excitation light to generate fluorescence, and the wavelength of emitted light can be controlled. They have been widely used as biological probes. Molecular biology, medical diagnostics and other disciplines. [0003] At present, the synthesis of quantum dots is divided into high temperature oil phase synthesis method and water phase synthesis method. ) synthesized CdSe quantum dots by an aqueous phase method. Song Zhenwei et al. (Chinese Patent Application No.: 200810032389.2) disclosed a method for encapsulating semiconductor quantum dots with silane. Sun Kang et al. (Chinese Patent Appli...

Claims

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Application Information

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IPC IPC(8): C09K11/88C09K11/02
Inventor 蔡林涛张鹏飞贾静高笃阳盛宗海胡德红龚萍
Owner SHENZHEN INST OF ADVANCED TECH