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Modified nano titanium dioxide photocatalyst and its preparation method and application

A nano-titanium dioxide, photocatalyst technology, applied in physical/chemical process catalysts, chemical instruments and methods, organic compounds/hydrides/coordination complex catalysts, etc., can solve the limitation of photocatalytic activity, weak loading force, reduced Stability and other issues, to achieve high catalytic activity, not easy to run off, improve the effect of surface activity

Inactive Publication Date: 2016-07-06
XUZHOU UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Through the superior adsorption capacity of mesoporous materials, the catalyst enhances the visible light catalytic degradation performance of high-concentration organic pollutants, and has the advantages of simple operation, low cost, easy availability of raw materials and high UV-visible light activity, but there is a loading force Weaker, TiO cannot be avoided during long-term cycling 2 The problem of the loss of nanoparticles, and the degradation experiment of pollutants proves that the wastewater treatment concentration is low and the adsorption capacity is limited, which is far from the photocatalytic characteristics and mechanism process of the actual high-concentration wastewater; Chinese patent CN102527439 announced a Photocatalytically active polymer / TiO 2 The preparation method of the hybrid film realizes the TiO 2 The chemical loading of nanoparticles in the polymer film not only effectively improves the agglomeration of nanoparticles, but also after the photocatalysis is over, the hybrid film can be directly taken out from the organic pollutant solution, and the nanoparticles are recovered, which solves the problem of traditional The load method is difficult to resolve during long-term use of TiO 2 The loss of nanoparticles ensures high photocatalytic activity in long-term use, and the process is simple, but similar to traditional hydrophobic modifiers, the hybrid film itself is easily exposed to TiO under light. 2 Degradation greatly reduces the stability, and the basement membrane fiber diameter of the hybrid membrane increases from 2-50nm of the primary particle size to 100-300nm, which limits the improvement of photocatalytic activity

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  • Modified nano titanium dioxide photocatalyst and its preparation method and application
  • Modified nano titanium dioxide photocatalyst and its preparation method and application
  • Modified nano titanium dioxide photocatalyst and its preparation method and application

Examples

Experimental program
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Effect test

Embodiment 1

[0041] (1) With 100gCCl 4 Add 5.00g nano-TiO to the reactor 2 After the powder is dispersed and stirred uniformly by ultrasound, the temperature is raised to 80°C with stirring; 2.50g PCl 3 Dissolved in 50gCCl 4 In, mixed well, the PCl 3 CCl 4 Add the solution into the reactor, raise the temperature to 90°C after the dropwise addition, and react for 2 hours to remove the CCl in the reaction solution 4 and recycle to obtain a yellow transparent powder, i.e. powder I;

[0042] (2) Add 80g of α-olefin sulfonic acid and 80g of benzene with carbon number of C12-C14 in the reactor successively, stir and heat up to 130°C, take samples and analyze the content of sulfonic acid every 1h, until the content of α-olefin sulfonic acid is constant, The brown liquid phenyl-(dodecyl-tetradecyl)sulfonic acid was obtained; cooled to 10°C, continued to stir, added dropwise 400g of oleum, stirred at room temperature for 2h after the dropwise addition, then added dropwise 240g of 0.2mol L -1 ...

Embodiment 2

[0046] (1) With 85gCCl 4 Add 5.00g nano-TiO to the reactor 2 After the powder is dispersed and stirred evenly by ultrasound, the temperature is raised to 80°C with stirring; 2.20g PCl 3 Soluble in 40gCCl 4 In, mixed well, the PCl 3 CCl 4 Add the solution into the reactor, raise the temperature to 90°C after the dropwise addition, and react for 3 hours to remove the CCl in the reaction solution 4 and recycle to obtain a yellow transparent powder, i.e. powder I;

[0047](2) Add 80g of α-olefin sulfonic acid and 68g of benzene with carbon number of C14-C16 in the reactor successively, stir and heat up to 130°C, take samples and analyze the content of sulfonic acid every 1h, and wait until the content of α-olefin sulfonic acid is constant, The brown liquid phenyl-(tetradecyl-hexadecyl)sulfonic acid was obtained; cooled to 20°C, continued to stir, added dropwise 325g of oleum, stirred at room temperature for 2.5h after the dropwise addition, then added dropwise 190g of 0.2mol ...

Embodiment 3

[0051] (1) With 65gCCl 4 Add 5.00g nano-TiO to the reactor 2 After the powder is dispersed and stirred evenly by ultrasound, the temperature is raised to 80°C with stirring; 2.00gPCl 3 Soluble in 35gCCl 4 In, mixed well, the PCl 3 CCl 4 Add the solution into the reactor, raise the temperature to 90°C after the dropwise addition, and react for 4 hours to remove the CCl in the reaction solution 4 and recycle to obtain a yellow transparent powder, i.e. powder I;

[0052] (2) Add 80g of α-olefin sulfonic acid and 56g of benzene with carbon number of C16-C18 in the reactor successively, stir and heat up to 130°C, take samples and analyze the content of sulfonic acid every 1h, and wait until the content of α-olefin sulfonic acid is constant, The brown liquid phenyl-(hexadecyl-octadecyl)sulfonic acid was obtained; cooled to 10°C, continued to stir, added dropwise 296g of fuming sulfuric acid, stirred at room temperature for 3 hours after the dropwise addition, and added dropwise...

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Abstract

Modified nano titanium dioxide photocatalyst and its preparation method and application, the preparation method is as follows: 1) in CCl 4 Nano-TiO was added to the reactor 2 Powder, add PCl at 80°C 3 CCl 4 Solution, react at 90°C for 2-4 h, remove CCl 4 Obtain powder Ⅰ; 2) Preparation of sodium 4-sodium sulfonate phenyl alkyl sulfonate; 3) Preparation of sodium 4-sodium sulfonate phenyl bromide alkyl sulfonate; 4) The treated metal Pour magnesium into the reactor containing anhydrous ether, add the product obtained in step 3), until the magnesium is completely reacted, add bis(1,3-diphenylphosphine)propyl nickel dichloride and the product obtained in step 1), Reflux for 15-20 h and process to get the finished product. After the present invention degrades high-concentration benzene series pollutants, it is separated and recovered, and still has high catalytic activity after repeated use for many times. After repeated use for 7 times, the degradation efficiency of high-concentration and refractory benzene series can be reduced after 8.0 hours. up to 100%.

Description

technical field [0001] The invention belongs to the technical field of catalytic oxidant and its preparation, in particular to a modified nano-titanium dioxide photocatalyst and its preparation method and application. Background technique [0002] The high-concentration wastewater in the modern chemical industry has the following characteristics: high chroma, peculiar smell, easy to emit pungent stench, polluting the environment; organic matter is supersaturated, the concentration (in terms of COD) is higher than 2000mg / L, and some are even as high as dozens 10,000 mg / L, and contains different types of surfactants and organic solvents, etc., with strong self-emulsification, self-dispersion and collection capabilities, and pollutants are in suspension and droplets; the composition is complex, mainly aromatic compounds and heterocyclic compounds Mostly (BOD 5 / COD value <0.3), also contains sulfides, nitrides, heavy metals and other toxic organic substances, the biodegrada...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J31/38C02F1/30C02F1/58
CPCY02W10/37
Inventor 王晓辉堵锡华董黎明周颖梅史小琴颜巍王化建
Owner XUZHOU UNIV OF TECH