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Method for preparing platinum-copper alloy nanowire by heliothis armigera nuclear polyhedrin

A nuclear polyhedron and polyhedron protein technology, which is applied in the field of fuel cell catalyst preparation, can solve the problems of limiting the large-scale application of noble metal catalysts, high price, and inapplicability to large-scale production and application of fuel cells, achieving short preparation time, The effect of high biocompatibility and simple preparation process

Inactive Publication Date: 2016-07-27
YANSHAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The catalysts that have been reported to have good catalytic activity for fuel cells include PtPd, PtRh, PdRh, etc. However, Pt, Pd, and Rh are precious metals with scarce resources, and the price is very expensive, so they are not suitable for large-scale production and application of fuel cells.
However, the physical and chemical properties of noble metals determine their irreplaceability in various catalytic reactions, which to some extent has become a bottleneck limiting the large-scale application of noble metal catalysts.

Method used

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  • Method for preparing platinum-copper alloy nanowire by heliothis armigera nuclear polyhedrin
  • Method for preparing platinum-copper alloy nanowire by heliothis armigera nuclear polyhedrin
  • Method for preparing platinum-copper alloy nanowire by heliothis armigera nuclear polyhedrin

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] (1) Get 0.05mg of cotton bollworm polyhedron protein freeze-dried powder and disperse it with 5mL of cold ultrapure water (the ultrapure water used is the PL5124-PALL model produced by Vivendi Pure Water Systems Co., Ltd., High Wycombe, UK. prepared by an ultrapure water instrument) to obtain a polyhedrin solution with a concentration of 0.01 mg / mL. 3mL concentration of 5mMPtCl 4 solution and 1 mL of CuCl at a concentration of 5 mM 2 The solutions were mixed to obtain a mixed solution with an atomic ratio of Pt and Cu of 3:1.

[0022] (2) Take 1200 μL of the protein solution in step (1) into a 10 mL centrifuge tube, add 400 μL of the precursor mixed solution obtained in step (1), and mix well.

[0023] (3) In the mixed solution of step (2) gained, be filled with ultrapure nitrogen 5min, add the NaBH that concentration is 10mM to prepare now 4 200 μL of the solution was used for reduction, the molar ratio of sodium borohydride to the precursor mixed solution was 1:1, ...

Embodiment 2

[0026] (1) Take 0.05 mg of polyhedrin freeze-dried powder of cotton bollworm polyhedrin and disperse it with 100 mL of cold ultrapure water to obtain a polyhedrin solution with a concentration of 0.005 mg / mL. Make 1 mL of 10 mMPtCl 4 solution and 1 mL of CuCl at a concentration of 10 mM 2 The solutions were mixed to obtain a mixed solution with an atomic ratio of Pt and Cu of 1:1.

[0027] (2) Take 1000 μL of the protein solution in step (1) into a 10 mL centrifuge tube, add 200 μL of the precursor mixed solution obtained in step (1), and mix well.

[0028] (3) In the mixed solution of step (2) gained, be filled with ultrapure nitrogen 10min, add the NaBH that concentration is 20mM to prepare now 4 300 μL of the solution was used for reduction, the molar ratio of sodium borohydride to the precursor mixed solution was 3:1, the solution changed from light yellow to black, and platinum-copper alloy nanowires with a network structure were prepared.

[0029] Such as figure 2 A...

Embodiment 3

[0033] (1) Take 0.05 mg of polyhedrin freeze-dried powder of cotton bollworm polyhedrin and disperse it with 500 mL of cold ultrapure water to obtain a polyhedrin solution with a concentration of 0.0001 mg / mL. Make 1 mL of 15 mMPtCl 4 solution and 3 mL of CuCl at a concentration of 15 mM 2 The solutions were mixed to obtain a mixed solution with an atomic ratio of Pt and Cu of 1:3.

[0034] (2) Take 1200 μL of the protein solution in step (1) into a 10 mL centrifuge tube, add 200 μL of the precursor mixed solution obtained in step (1), and mix well.

[0035] (3) In the mixed solution of step (2) gained, be filled with ultrapure nitrogen 10min, add the NaBH that concentration is 25mM to prepare now 4 600 μL of the solution was reduced, and the molar ratio of sodium borohydride to the precursor mixed solution was 5:1, and the solution changed from light yellow to black, thereby preparing platinum-copper alloy nanowires.

[0036] Such as Figure 5 As shown, the prepared plati...

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Abstract

The invention provides a method for preparing a platinum-copper alloy nanowire by heliothis armigera nuclear polyhedrin. The method mainly comprises the following steps: preparing heliothis armigera polyhedrin freeze-dried powder into a polyhedrin solution with the concentration of 0.0001-0.01mg / mL; preparing a K2PtC16 solution and a CuCl2 solution into a precursor mixed solution with the molar ratio of Pt atoms to Cu atoms being (1-3) to (1-3); preparing the polyhedrin solution and the precursor mixed solution into the mixed solution at the volume ratio of (3-6) to 1; and introducing ultra-pure nitrogen into the mixed solution for 5-30 minutes, adding sodium borohydride to the solution for reduction at a room temperature and changing the solution into black from faint yellow to prepare the network platinum-copper alloy nanowire. According to the method, the preparation time is especially short; the technology is simple; low-cost industrial production is easy to implement; the platinum-copper alloy nanowire has very high catalytic activity on electrochemical oxidation of ethanol, has good carbon monoxide poisoning resistance and good stability, and can be used as a fuel cell catalyst.

Description

technical field [0001] The invention relates to the field of preparation of fuel cell catalysts, in particular to a method for preparing platinum-copper nanowires with a network structure. Background technique [0002] Fuel cells are in a period of rapid development. The biggest limitation to the development of fuel cells is the cost issue, and the cost issue is ultimately the cost of the catalyst in the membrane electrode, its core component. Therefore, the research on fuel cell catalysts is the core research direction of fuel cell development at present. The catalysts that have been reported to have good catalytic activity for fuel cells include PtPd, PtRh, PdRh, etc. However, Pt, Pd, and Rh are precious metals with scarce resources, and the price is very expensive, so they are not suitable for large-scale production and application of fuel cells. . However, the physical and chemical properties of noble metals determine their irreplaceability in various catalytic reactio...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/92
CPCH01M4/921Y02E60/50
Inventor 陈蓉娜孙暮雪庞桂桂高发明
Owner YANSHAN UNIV
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