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Preparation method of MOF derived different-structure nanoreactor

A technology of nano-reactors and structure regulators, applied in chemical instruments and methods, preparation of organic compounds, preparation of ethers, etc., can solve the problem of poor dispersion of active catalytic centers, affecting catalytic activity of catalytic materials, low catalytic reaction efficiency, etc. problems, to achieve the effect of reliable and easy synthesis process, reliable preparation method and structure regulation

Active Publication Date: 2022-02-25
XI AN JIAOTONG UNIV
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Problems solved by technology

[0004] However, when synthesizing the above materials, there are many types of reagents required, and the synthesis steps are complicated; in the catalytic reaction, the pores of the shell structure are easily blocked, which makes the catalytic reaction efficiency low, and the active catalytic center has poor dispersion in the core, especially at high temperature. During the high-pressure catalytic reaction, the particles are easy to aggregate, which affects the catalytic activity of the catalytic material

Method used

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  • Preparation method of MOF derived different-structure nanoreactor
  • Preparation method of MOF derived different-structure nanoreactor
  • Preparation method of MOF derived different-structure nanoreactor

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preparation example Construction

[0047] 6) Preparation of different structural type nanoenen reactors: The above-described different structural type nanogenator precursor is calcined in air, and by using a step-by-step ultrasonic or equivalent impregnation method on the reactor carrier. After the calcination, the nano-reactor catalytic material of the corresponding structural type is reduced.

[0048] Application of nano-reactor catalytic material prepared by the above method in the field of catalytic.

[0049] Catalyst Co 2 Hydrocatalytic performance evaluation:

[0050] Nano reactor catalyst and industrial catalyst (ind.cat) will be prepared for in situ H. 2 Restore is activated, followed by the reaction mixture for CO 2 Hydrogen-catalyzed performance evaluation, where the activation process is: at normal pressure of 300 ° C hydrogen conditions at a hydrogen gas conditions of 2 ° C / min, the reaction conditions are: hydrogen flow is 30 ~ 60 ml / min, h 2 Co 2 Volume ratio = 3 / 1, vacancy is 9000 ~ 18000mlg -1 h...

Embodiment 1

[0052] Preparation of Core @ m-shell nuclear housing nano reactor:

[0053] Preparation of 1 mil-96 nucleus: 0.69 g of aluminum nitrate, 0.24 g of ketzene trimethyl and 2.1 g of PVP and 46 mL of ethanol acetone mixed solution (volume ratio of 1: 1), 10 ml ultrapure water, form a uniform mixed solution ;

[0054] The acid medium (nitric acid is added to the mixed solution, and the concentration of 1 mol / L) is mixed and uniformly transferred to a reaction kettle 150 ° C crystallization time of 42 h, centrifuged, ethanol washing 2 times after 80 ° C oven 12h Dry, get the morphology, MIL-96 in size.

[0055] 2MIL-96 @ msio 2 Preparation: MIL-96, which is called 50 mg height dispersion and particle diameter as reactor, and dispersed its ultrasonic dispersion in a mixed solution containing 131 mg of CTAb ethanol and water to obtain a solution of MOFS material, ethanol and water. The ratio was 0.85: 1, and the ethanol solution containing orthodoxate (TEOS) was mixed with the above alum...

Embodiment 2

[0060] Double-shell Hollow Mesoporous-shaped nano reactor preparation:

[0061] The preparation of 1 mil-96 nucleus was weighed 0.69 g of aluminum nitrate, 0.24 g of a phenylene trimethylene acid and 2.1 g of PVP and 46 mL of ethanol acetone mixed solution (volume ratio of 1: 1), 10 ml of water agitated to form a mixed solution;

[0062] The acid medium (nitric acid is added to the mixed solution, and the concentration of 1 mol / L of the mixed solution is mixed) and then transferred to the reaction kettle 150 ° C crystallization time of 42 h, centrifugation, ethanol washing 2 to 3 times after 80 ° C The oven is dried 12h.

[0063] 2MIL-96 @ msio 2 The preparation of 50 mg height dispersed and particle size uniform MIL-96 as the reactor intematic, dispersed its ultrasonic dispersion in a mixed solution containing 131 mg of CTAb ethanol and water to obtain a solution, ethanol and water volume ratio of MOFS material, ethanol and water volume ratio In 0.67: 1, the ethanol solution co...

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Abstract

The invention relates to a preparation method of an MOF derived different-structure nanoreactor, the preparation method comprises the following steps: dissolving an aluminum salt, an organic ligand and a structure regulator in a mixed solution of ethanol and acetone, adding water and an acid medium, and uniformly stirring to obtain a mixture; reacting the mixture, dispersing the mixture in a mixed alkaline solution of ethanol containing cetyltrimethylammonium bromide and water to obtain an aluminum-based MOFs material solution, adding an ethanol solution containing tetraethoxysilane, adding the mixture into a hydrothermal solvent, and performing hydrothermal reaction to obtain nanoreactor precursors of different structure types; calcining and then loading an active catalytic component on the reactor carrier to obtain the nano-reactor catalytic material. The obtained catalytic active nanoparticles can be highly dispersed in the whole reactor, the mesoporous SiO2 shell layer greatly increases the specific surface area of the catalyst, the pore capacity of the catalyst is improved, the catalyst has good adsorption and enrichment effects on reactant molecules, the preparation process is simple, and the synthesis condition is mild.

Description

Technical field [0001] The present invention relates to a nano-reactor material, and more particularly to a method of preparing a MOF-derived different structural nano-reactor. Background technique [0002] The catalyst acts as a core element that affects the catalytic reaction is a critical role in the reaction. The study of the innovation and development of catalysts in the catalytic field has not stopped. Generally, the preparation process and physicochemical properties of high performance nanocatalytic materials are more complicated than those of those common performance nanocatalytic materials. Therefore, it is necessary to think deeply on the design and synthesis of different structural nanocatalysts. In particular, the composition, production, activity, selective, stability, surface properties, porosity, size, morphology, density, and preparation cost require the system. The nano-reactor catalyst is an important branch of the nanocatalyst refers to a catalyst assembled in ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J32/00B01J21/12B01J23/80C01B32/40C07C29/154C07C31/04C07C41/01C07C43/04
CPCB01J21/12B01J23/002B01J23/80C01B32/40C07C29/154C07C41/01B01J2523/00B01J35/396C07C31/04C07C43/043B01J2523/17B01J2523/27B01J2523/31B01J2523/41Y02P20/52
Inventor 何炽陈长伟姜泽宇田明姣马牧笛徐晗
Owner XI AN JIAOTONG UNIV
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