Method for solid support of modified nano titanium dioxide by chemically plating nickel-zinc-phosphor alloy

A technology of nano-titanium dioxide and electroless nickel plating, which is applied in the direction of liquid chemical plating, electrophoretic plating, superimposed layer plating, etc., can solve the problems of low content, reduced catalytic activity, poor bonding performance, etc., and achieve good photodegradation effect , wide application range, combined with good effect

Inactive Publication Date: 2009-07-08
HEFEI UNIV OF TECH
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  • Summary
  • Abstract
  • Description
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  • Application Information

AI Technical Summary

Problems solved by technology

In the existing technology, the polymer support itself can be covered with titanium dioxide TiO 2 Photodegradation can only be used for a short period of time; although various glass carriers have good light transmission performance, they have the problem of poor adhesion; ceramic carriers have poor light transmission performance, and the pore size is not easy to match with the catalyst particle size; 3+ 、Cr 3+ Ions easily enter titanium dioxide TiO 2 layer, destroying its crystal lattice, reducing the catalytic activity, and titanium dioxide TiO 2 Poor bonding performance between layer and metal carrier
Adding Titanium Dioxide TiO to Electroless Nickel-Based Alloy Plating Bath 2 Granules that make nickel base alloys with titanium dioxide TiO 2 Co-deposition of particles onto metallic or non-metallic substrates is the solution to titanium dioxide TiO 2 An important way to immobilize, but the co-deposited layer obtained by this method is titanium dioxide TiO 2 The volume ratio is generally less than 40%, and the content is low, which affects the use effect

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] The method for immobilizing and modifying nano-titanium dioxide by electroless nickel-zinc-phosphorus alloy comprises the following steps:

[0024] After polishing the copper sheet with a size of 20×30×1.5 mm with sandpaper, it was ultrasonically cleaned in acetone for 5 minutes, taken out and dried in air at room temperature. Put the copper sheet into 1% stannous chloride solution and soak for 1 minute, rinse with water, then immerse in 0.1% palladium chloride solution for 30 seconds, wash with water and dry in the air for later use.

[0025] Weigh 3 grams of nitrogen-doped nano-titanium dioxide with an average particle size of 20 nm, add it into 500 ml of acetone, and stir it ultrasonically for 30 minutes to prepare solution A.

[0026] Submerge the graphite electrode and copper sheet in a glass vessel containing solution A, use graphite as the anode, and copper sheet as the cathode, and make the copper sheet parallel to the graphite, and electrophoresis under the con...

Embodiment 2

[0029] After polishing the nickel sheet with a size of 20×30×2 mm with sandpaper, it was ultrasonically cleaned in acetone for 5 minutes, taken out and dried in air at room temperature.

[0030] Weigh 8 grams of carbon-doped nano-titanium dioxide with an average particle size of 25 nm, add it into 500 ml of acetone, and stir it ultrasonically for 30 minutes to prepare solution B.

[0031] Submerge the graphite electrode and the nickel sheet in a glass vessel containing solution B, use graphite as the anode, and use the nickel sheet as the cathode, and make the nickel sheet parallel to the graphite. Electrophoresis for 1 minute to obtain a carbon-doped nano-titanium dioxide deposition layer.

[0032] Preparation of electroless nickel-plating zinc-phosphorus alloy solution, nickel sulfate 15 g / L; zinc sulfate 5 g / L; sodium hypophosphite 10 g / L; trisodium citrate 30 g / L; sodium acetate 25 g / L, pH value Adjust to 7.5. Heat the nickel-zinc-phosphorus alloy solution to 50°C, put t...

Embodiment 3

[0034] Put a plastic sample with a size of 20×30×1.5mm into 1% tin chloride solution and immerse it for 1 minute, rinse it with water, immerse it in 0.1% palladium chloride solution for 30 seconds, put it into the electroless nickel plating solution after washing with water . The composition of electroless nickel-plating phosphorus alloy solution is: nickel sulfate 30 grams / liter; Sodium hypophosphite 25 grams / liter; Trisodium citrate 45 grams / liter; Zinc sulfate 25 grams / liter; Sodium acetate 30 grams / liter, adjust PH value to 4.5. The solution was heated to 80° C. for 30 minutes to obtain a nickel-plated plastic sample.

[0035] Weigh 3 grams of nitrogen-doped nano-titanium dioxide with an average particle size of 20 nm, add it to 500 ml of acetone, and stir it ultrasonically for 30 minutes to prepare solution C.

[0036] Submerge the graphite electrode and the nickel-plated plastic sheet in a glass vessel containing solution C, use graphite as the anode, and make the nick...

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Abstract

The invention relates to a method for modifying nano titanium dioxide supported on chemical nickel plating zinc phosphorus alloy which can make modifying nano TiO2 content in a compound plating layer reach to above 60wt%, the compound plating layer combines with metallic matrix well, and can be used for light-catalyzed reaction processed in solution. A special technique is that: firstly, confecting acet solution containing 6-12 g/L modifying TiO2, depositing a modifying nano TiO2 grain layer on the copper or nickle matrix by using electrophoresis technique, then placing the copper sheet or nickel sheet or plating nickel plastic sheet doping the nano TiO2 layer into the chemical plating nickel zinc phosphorus alloy solution and leaving period of time, then preparing a nickel zinc phosphorus alloy /modifying nano TiO2 compound plating layer and realizing supporting on modifying nano TiO2. The method can realize supporting on nano TiO2 granule, and increase nano TiO2 content in the depositing layer.

Description

technical field [0001] The invention relates to the preparation technology of nanometer materials, specifically adopts the combined treatment method of electrophoresis and electroless plating to solve the immobilization problem of modified nano titanium dioxide in photocatalysis in solution. Background technique [0002] In semiconductor photocatalytic materials, titanium dioxide TiO 2 It has the characteristics of good biological and chemical inertness, strong oxidation performance and low cost. Generally, it can have photocatalytic activity in the ultraviolet region. Studies have shown that in nano-titanium dioxide TiO 2 Doped with carbon, sulfur, nitrogen and other elements, can make titanium dioxide TiO 2 The photocatalytic response spectrum is red shifted, and it can have photocatalytic activity in the visible light range. [0003] In sewage treatment and other occasions, it is necessary to carry out photocatalytic reaction in the solution, and directly suspend nano-...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C23C28/00C23C18/36C23C18/18C25D13/02
Inventor 吴玉程朱绍峰黄新民
Owner HEFEI UNIV OF TECH
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