Preparation method of porous nanofiber membrane loaded atomic-scale active site catalyst

A nanofiber membrane and active site technology, which is applied in the field of preparation of atomic-level active site catalysts, can solve the problems of difficult direct recovery, pressure drop of catalytic bed, poor mechanical properties, etc., and achieve narrow pore size distribution and strong synergistic effect , enhance the effect of the interaction

Inactive Publication Date: 2020-03-27
TIANJIN UNIV
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  • Description
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Problems solved by technology

However, metal atoms dispersed in the form of atoms have high surface Gibbs free energy, making them easy to agglomerate into nanoclusters and gradually deactivate during the preparation and reaction process.
In addition, most of the catalysts are in the form of powder, which will lead to the problem of pressure drop in the catalytic bed during the catalytic oxidation of gaseous organic pollutants, and when they are used to catalyze the degradation of organic pollutants in water, they are directly put into the water environment and are difficult to recover directly. , poor mechanical properties, etc.

Method used

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  • Preparation method of porous nanofiber membrane loaded atomic-scale active site catalyst
  • Preparation method of porous nanofiber membrane loaded atomic-scale active site catalyst
  • Preparation method of porous nanofiber membrane loaded atomic-scale active site catalyst

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preparation example Construction

[0031] Such as figure 1 A preparation method of an atomic-level active site catalyst supported by a porous nanofiber membrane comprises the following steps:

[0032] (1) prepare PTFE porous nanofiber membrane, comprise the following steps:

[0033] In the first step, the surfactant powder is dissolved in distilled water at 40-100°C, and continuously stirred for 6-10 hours to obtain an aqueous solution with a mass fraction of surfactant of 5-15 wt%, and cooled to 20-30°C; The surfactant can be one of polyvinyl alcohol (PVA), polyethylene oxide (PEO) or ethylene phthalate (PET) and the like.

[0034]In the second step, adding PTFE emulsion and boric acid solid powder containing 60% solids to the aqueous solution, the mass ratio of PTFE and surfactant is 2:1~12:1, the mass ratio of surfactant and boric acid The ratio is 1:0.001-1:0.003, and the stirring is continued for 2-5 hours to obtain the first mixed solution.

[0035] In the third step, PAN (polyacrylonitrile) is dissolv...

Embodiment 1

[0044] Preparation of Pt-PTFE / PVA atomic-level active site catalyst:

[0045] (1) prepare PTFE / PVA porous nanofiber membrane, comprise the following steps:

[0046] In the first step, polyvinyl alcohol (PVA) powder was dissolved in distilled water at 80°C, and stirred continuously for 8 hours to obtain an aqueous solution with a mass fraction of PVA of 10 wt%, and cooled to 25°C;

[0047] In the second step, adding PTFE emulsion and boric acid BA solid powder containing 60% solids to the aqueous solution, the mass ratio of PTFE and surfactant is 6:1, and the mass ratio of PVA and BA is 1:0.0015 , and continuously stirred for 3h to obtain the first mixed solution.

[0048] In the third step, PAN (polyacrylonitrile) is dissolved in N,N dimethylformamide to form a second mixed solution with a mass fraction of PAN of 10 wt%.

[0049] The fourth step is to prepare PTFE / PVA porous nanofiber membrane by electrospinning method. The steps are: place the first mixed solution in the sy...

Embodiment 2

[0062] Preparation of Pd-PTFE / PEO atomic-level active site catalyst:

[0063] (1) Prepare PTFE / PEO porous nanofiber membrane, the steps are as follows:

[0064] In the first step, polyethylene oxide (PEO) powder was dissolved in distilled water at 40°C, and stirred continuously for 10 hours to obtain an aqueous solution with a mass fraction of PEO of 5 wt%, and cooled to 20°C;

[0065] In the second step, in the aqueous solution, adding PTFE emulsion and boric acid BA solid powder containing 60% solid mass, the mass ratio of PTFE and PEO is 2:1, and the mass ratio of PEO and BA is 1:0.001, and Stirring was continued for 2 h to obtain the first mixed solution.

[0066] In the third step, PAN (polyacrylonitrile) is dissolved in N,N dimethylformamide to form a second mixed solution with a mass fraction of PAN of 5 wt%.

[0067] The fourth step is to prepare PTFE / PVA porous nanofiber membrane by electrospinning method. The steps are: place the first mixed solution in the syringe...

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Abstract

The invention discloses a preparation method of a porous nanofiber membrane loaded atomic-scale active site catalyst. According to the catalyst, a polytetrafluoroethylene (PTFE) porous nanofiber membrane is used as a carrier, precious metal or transition metal atoms are used as active components, the stable dispersion of metal active atoms on a PTFE porous nanofiber membrane carrier in the form ofsingle or a plurality of atoms is realized through a simple electrospinning-impregnation two-step method, and the utilization rate of the metal atoms and the number of interfacial active sites can bemaximized such that excellent catalytic performance is shown. The catalyst can be used for catalytic oxidation degradation of organic pollutants in water and atmosphere at normal temperature, and more than 90% organic pollutants can be removed without any external energy input.

Description

technical field [0001] The invention belongs to the field of catalyst technology and the field of air and water pollution control, and in particular relates to a preparation method of an atomic-level active site catalyst supported by a porous nanofiber membrane. Background technique [0002] With the development of industrialization, a large amount of organic pollutants are discharged into the water and atmospheric environment, causing damage to the water ecological environment and serious air pollution. Traditional organic pollutant treatment technologies mainly include adsorption, absorption, membrane separation, etc., but there are often problems such as high cost, poor universality, low efficiency, and secondary pollution. Therefore, thermal incineration, photocatalytic oxidation, bioremediation, and plasma Technology has become the mainstream, but all of them require the input of light, electricity, heat and other energy from the outside to open the molecular bonds of o...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J31/28B01J31/26B01J35/10B01J35/06B01J31/06
CPCB01J31/28B01J31/26B01J35/1004B01J35/0066B01J35/065B01J31/06
Inventor 丁辉薛凌霄
Owner TIANJIN UNIV
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