CN1737085A

CN1737085A - LTA and FAU molecular screen nanocrystalline preparation method

Info

Publication number: CN1737085A
Application number: CN 200510016886
Authority: CN
Inventors: 朱广山; 裘式纶; 田景琦; 郭晓丹; 尹肖菊
Original assignee: 朱广山
Current assignee: Zhuhai Hengqin Changmanou International Trade Co ltd
Priority date: 2005-06-17
Filing date: 2005-06-17
Publication date: 2006-02-22
Anticipated expiration: 2025-06-17
Also published as: CN100360405C

Abstract

The invention relates a method for preparation of LTA and FAJJ molecular sieve nanometer crystal. The method comprises the following steps: entering the silico-aluminum into mineralization agent and TMAOH to make solution; after intimate mixing, in the condition of agitation or quiescence, making it react for 1-30 days in 100 deg.C; after crystallization, centrifugalizing and filtering it, finally scrubbing and drying and obtaining the LTA and FAJJ molecular sieve nanometer crystal, and synthesizing the LTA molecular sieve nanometer crystal in the range of (0.8-3.0)SiO2: Al2O3: (0-20)(TMA)02: (0-7.5)Na: (50-5000)H2O and FAU molecular sieve nanometer crystal in the range of 3.4SiO2:(0.5-1.8)Al2O3:(0-20)(TMA)O2: (0-7.5)Na:(50-5000)H2O.

Description

The preparation method of a kind of LTA and FAU molecular screen nanocrystalline

Technical field

The invention belongs to the preparation method of the relevant molecular screen material of domain of inorganic chemistry, be specifically related to the preparation method of a kind of LTA and FAU molecular screen nanocrystalline.

Background technology

Fields such as FAU is widely used in catalysis with the LTA molecular sieve, separates, ion-exchange, the existing preparation technology obtains product and mostly is granularity greatly at the above body phase material of 1 μ m, the molecular sieve of this granularity can not effectively be brought into play its distinctive duct feature, particularly in the application of catalysis and ion-exchange field.When molecular sieve was applied to catalytic field and ion-exchange field, expectation possesses following feature: 1) bigger external surface area can obtain more active centre; 2) diffusion that reduces to help reactant and product of particle size makes the efficient of catalyzer higher, the easier generation of ion-exchange; 3) have more opening of the channel, reactant be difficult for to stop up the duct, helps prolonging the catalyst runs cycle, makes more abundant that ion-exchange carries out in the duct.

Chinese patent 96102487.9 has been reported a kind of preparation method of fine-crystal model A zeolite, by add the directed agents that oneself prepares in building-up process, obtains the A type zeolite of mean particle size less than 1 μ m, and the calcium adsorptive power of this product is not less than 320mg CaCO ₃/ g anhydrous zeolite.This method preparation process is simple, easily realizes large-scale commercial production, but the product that obtains only is the body phase material less than 1 μ m, though the calcium adsorptive power is better, the granularity of zeolite is still very big, does not reach below the 100nm.

Chinese patent 200310111435.5 has been reported a kind of preparation method of nano type A molecular sieve, by introducing ultrasonic wave and microwave combined effect, the nanocrystal of generation can't be grown up, thereby obtained the A type molecular sieve of 0.1～100nm.Adopt this method to prepare nano molecular sieve, it is fast to have speed, advantages such as productive rate height, but realize relatively difficulty of large-scale commercial production.

The preparation method of LTA provided by the present invention and FAU molecular screen nanocrystalline, by introducing the organic bases Tetramethylammonium hydroxide and adding mineralizer, the crystalline mean sizes is reduced to below the 100nm, and by can regulating and control the granularity of product as required to the selection of silicon source, aluminium source reaction conditions, and obtain the nano material of homogeneous grain diameter.

Summary of the invention

It is the following FAU of 100nm and the preparation method of LTA molecular screen nanocrystalline that purpose of the present invention just is to provide a kind of crystalline mean sizes.

Concrete synthesis step is:

1. aluminium source (or silicon source) added mineralizer and Tetramethylammonium hydroxide (TMAOH), make solution;

2. add silicon source (or aluminium source), after stirring, room temperature to 100 ℃ static state or stirring were reacted 1-30 days down;

3. centrifugation or filtration after the crystallization, the washing drying obtains LTA and FAU molecular screen nanocrystalline.

Added the organic amine Tetramethylammonium hydroxide as template in the nanocrystalline process of synthesis of molecular sieve.Silicon source in the above-mentioned steps is one or more in tetraethoxy (TEOS), butyl silicate, methyl silicate, white carbon black, silica gel, silicon sol, the water glass.The aluminium source is one or more in aluminium powder, aluminium hydroxide, aluminum isopropylate, aluminum chloride, the sodium metaaluminate.

Solution in the above-mentioned steps can be the aqueous solution, alcoholic solution (ethanol, methyl alcohol, ethylene glycol, propyl alcohol) or alcohol solution.When the aluminium source was aluminium powder, aluminium powder was added in the solution of mineralizer, Tetramethylammonium hydroxide and water after the stirring and dissolving, with the membrane filtration of 0.2 μ m.Mineralizer is a sodium salt, comprises SODIUMNITRATE, sodium sulfate, sodium-chlor, Sodium Fluoride or sodium hydroxide.

The proportioning that the reaction soln that two solution obtain after mixing in the above-mentioned steps is formed is (0.8-3.0) SiO ₂: 1Al ₂O ₃: (0.1-20) (TMA) O ₂: (0-7.5) Na: (50-5000) H ₂During O (or alcohol), obtain the LTA molecular screen nanocrystalline, 3.4SiO ₂: (0.5-1.8) Al ₂O ₃: (0.1-20) (TMA) O ₂: (0-7.5) Na: (50-5000) H ₂Obtain the FAU molecular screen nanocrystalline during O (or alcohol).

The product of gained, the silica alumina ratio of LTA molecular screen nanocrystalline are 1.0-2.6, and the silica alumina ratio of FAU molecular screen nanocrystalline is 2.7-4.6.

Characteristics of the present invention are: by introducing Tetramethylammonium hydroxide, the crystalline mean sizes is reduced to below the 100nm.Partly or entirely provide alkalimetal ion by sodium salt, the basicity in the reaction mixture is partly or entirely controlled by the amount of TMAOH, and sodium salt promotes the molecular sieve nucleation and improves productive rate owing to change the ion constant of solution and influence the crystalline pattern.

Present method synthetic LTA and FAU are nanocrystalline in catalyzer, sorbent material and ion-exchanger superior performance, because its crystalline size is even, pattern is regular, in others such as Subjective and Objective material, optics etc. good application can both be arranged.

Description of drawings

Following example will be described further the aspect of this synthetic LTA and FAU nano molecular sieve, and the part photo in the example is listed in the Figure of description.

Fig. 1: the XRD figure spectrum of product A 1;

Fig. 2: the XRD figure spectrum of product A 11;

Fig. 3: the TEM photo of product A 6;

Fig. 4: the TEM photo of product A 4;

Fig. 5: the TEM photo of product A 13;

Fig. 6: the TEM photo of product A 15.

Embodiment

Come enumeration technical characterstic of the present invention below in conjunction with specific embodiment.

Embodiment one

A kind of preparation method of A type molecular sieve nanocrystal, the proportioning of reaction solution is: 3SiO ₂: 1.0Al ₂O ₃: 1.5 (TMA) O ₂: 0.007NaCl: 276H ₂O.At first with Al powder+NaCl+TMAOH stirring and dissolving, with the membrane filtration of 0.2 μ m.TEOS drips above-mentioned solution, after stirring, continues under agitation aging two days.Above-mentioned reaction soln is packed in the 150ml acrylic plastering bottle, puts into 100 ℃ of baking ovens, static reaction 15 days.Crystallization fully after, solid sample separated on 8000 rev/mins of whizzers in centrifugal 40 minutes, separated with whizzer with deionized water, ultrasonic washing repeatedly then, near 7, last solid sample is 80 ℃ of dryings 4 hours down up to the PH of separated water.Obtain product A 1, granular size is 80nm.

Embodiment two

A kind of preparation method of A type molecular sieve nanocrystal, this example except the proportioning of reaction solution is: 2.8SiO ₂: 1.0Al ₂O ₃: 5.5 (TMA) O ₂: 0.057NaCl: 600H ₂Outside the O, other obtains product A 2 with embodiment one, and granular size is 100nm.

Embodiment three

A kind of preparation method of A type molecular sieve nanocrystal, present embodiment is except reaction raw materials changes aluminum isopropylate into, and all the other are all with embodiment one.Obtain product A 3, granular size is 100nm.

Embodiment four

A kind of preparation method of A type molecular sieve nanocrystal, present embodiment is except reaction raw materials changes white carbon black into, and all the other are all with embodiment one.Obtain product A 4, granular size is 90nm.

Embodiment five

A kind of preparation method of A type molecular sieve nanocrystal is except the reaction solution proportioning is 3.65SiO ₂: Al ₂O ₃: 1.23 (TMA) O ₂: 0.43Na ₂O: 249H ₂Outside the O, other obtains product A 5 with embodiment one, and granular size is 80nm.

Embodiment six

A kind of preparation method of A type molecular sieve nanocrystal is except the reaction solution proportioning is 11.27SiO ₂: 1.82Al ₂O ₃: 13.5 (TMA) O ₂: 0.3Na ₂O: 700H ₂Outside the O, other obtains product A 6 with embodiment one, and granular size is 90nm.

Embodiment seven

A kind of preparation method of A type molecular sieve nanocrystal is except the reaction solution proportioning is 5.2SiO ₂: Al ₂O ₃: 8.3 (TMA) O ₂: 0.23Na ₂O: 400H ₂Outside the O, other obtains product A 7 with embodiment one, and granular size is 130nm.

Embodiment eight

A kind of preparation method of A type molecular sieve nanocrystal, the proportioning of reaction solution is: 0.3Na ₂O: 11.25SiO ₂: 1.8Al ₂O ₃: 13.4 (TMA) ₂O: 700H ₂O.0.75 gram aluminum isopropylate, 5.00 gram TMAOH5H ₂The sodium hydroxide solution of O, 0.6 gram 1M adds 7.0 gram water, stirs to clarification, adds the solution of 2.25 gram silicon sol and 2.0 gram water, continues to stir one day 100 ℃ of crystallization one day.Other subsequent disposal is with embodiment one.Obtain product A 8, granular size is 50nm.

Embodiment nine

A kind of preparation method of A type molecular sieve nanocrystal, present embodiment except the reaction solution proportioning is: 3.0SiO ₂: 1.0Al ₂O ₃: 1.5 (TMA) O ₂: 0.2NaNO ₃: 276H ₂Outside the O, all the other are all with embodiment one.Obtain product A 9, granular size is 60nm.

Embodiment ten

A kind of preparation method of A type molecular sieve nanocrystal, the proportioning of reaction solution is: 3SiO ₂: 1.0Al ₂O ₃: 1.5 (TMA) O ₂: 0.007Na: 276 ethanol.Aluminum isopropylate+NaCl+TMAOH+ ethanol stirring and dissolving at first is with the membrane filtration of 0.2 μ m.The ethanolic soln of TEOS drips above-mentioned solution, after stirring, continues under agitation aging two days.Above-mentioned reaction soln is packed in the 50ml teflon-lined stainless steel reaction, puts into 65 ℃ of baking ovens, static reaction 10 days.Crystallization fully after, solid sample separated on 8000 rev/mins of whizzers in centrifugal 40 minutes, separated with whizzer with deionized water, ultrasonic washing repeatedly then, near 7, last solid sample is 100 ℃ of dryings 4 hours down up to the PH of separated water.Obtain product A 10, granular size is 65nm.

Embodiment 11

A kind of preparation method of FAU type molecular screen nanocrystalline, present embodiment except the reaction solution proportioning is: 3.4SiO ₂: 1.7Al ₂O ₃: 2.3 (TMA) O ₂: 0.34Na ₂SO ₄: 1000H ₂Outside the O, other obtains product A 11 with embodiment one, and granular size is 80nm.

Embodiment 12

A kind of preparation method of FAU type molecular screen nanocrystalline, 3.4SiO ₂: 1.0Al ₂O ₃: 2.3 (TMA) O ₂: 0.1NaNO ₃: 300H ₂O, at first aluminum isopropylate+NaNO ₃+ TMAOH stirring and dissolving, 30% silicon sol drips above-mentioned solution, after stirring, continues under agitation aged at room temperature seven days.After the crystallization, solid sample separated on 10000 rev/mins of whizzers in centrifugal 40 minutes, separated with whizzer with deionized water, ultrasonic washing repeatedly then, and near 7, last solid sample is 80 ℃ of dryings 4 hours down up to the PH of separated water.Obtain product A 12, granular size is 60nm.

Embodiment 13

A kind of preparation method of FAU type molecular screen nanocrystalline, the proportioning of reaction solution is: 0.15Na ₂O: 5.5 (TMA) ₂O: 2.3Al ₂O ₃: 10SiO ₂: 570H ₂O.TMAOH5H ₂O joins the aqueous solution of aluminum isopropylate, stirs to clarification, adds silicon sol (30%), continue to stir 30 minutes, the teflon-lined reactor of packing into, 100 ℃ 2 days.Other subsequent disposal is with embodiment one.Obtain product A 13, granular size is 80nm.

Embodiment 14

A kind of preparation method of FAU type molecular screen nanocrystalline, except the silicon source changes into the TEOS, other is identical with embodiment ten.Obtain product A 14, granular size is 60nm.

Embodiment 15

A kind of preparation method of FAU type molecular screen nanocrystalline, present embodiment except the reaction solution proportioning is: 3.54SiO ₂: Al ₂O ₃: 2.46 (TMA) O ₂: 0.04Na ₂O: 370H ₂Outside the O, other obtains product A 15 with embodiment one, and granular size is 80nm.

Embodiment 16

A kind of preparation method of FAU type molecular screen nanocrystalline, present embodiment except the reaction solution proportioning is: 3.63SiO ₂: 1.7Al ₂O ₃: 1.576 (TMA) O ₂: 0.045Na ₂O: 250H ₂Outside the O, other obtains product A 16 with embodiment one, and granular size is 80nm.

Embodiment 17

A kind of preparation method of FAU type molecular screen nanocrystalline, present embodiment except the reaction solution proportioning is: 10SiO ₂: 2.4Al ₂O ₃: 5.5 (TMA) O ₂: 0.16Na ₂O: 550H ₂Outside the O, other obtains product A 17 with embodiment one, and granular size is 60nm.

Embodiment 18

A kind of preparation method of FAU type molecular screen nanocrystalline, present embodiment except the reaction solution proportioning is: 3.4SiO ₂: Al ₂O ₃: 2.46 (TMA) O ₂: 0.32Na ₂O: 380H ₂O: outside the 13.6EtOH, other obtains product A 18 with embodiment one, and granular size is 85nm.

Claims

1, the preparation method of a kind of LTA and FAU molecular screen nanocrystalline the steps include:

(1) aluminium source or silicon source are added mineralizer and Tetramethylammonium hydroxide, make solution;

(2) add silicon source or aluminium source, after stirring, room temperature to 100 ℃ static state or stirring were reacted 1-30 days down;

(3) centrifugation or filtration after the crystallization, the washing drying obtains LTA and FAU molecular screen nanocrystalline.

2, the preparation method of LTA as claimed in claim 1 and FAU molecular screen nanocrystalline is characterized in that: the silicon source is one or more in tetraethoxy, butyl silicate, methyl silicate, white carbon black, silica gel, silicon sol, the water glass.

3, the preparation method of LTA as claimed in claim 1 and FAU molecular screen nanocrystalline is characterized in that: the aluminium source is one or more in aluminium powder, aluminium hydroxide, aluminum isopropylate, aluminum chloride, the sodium metaaluminate; When the aluminium source was aluminium powder, aluminium powder was added in the solution of mineralizer, Tetramethylammonium hydroxide and water after the stirring and dissolving, with the membrane filtration of 0.2 μ m.

4, the preparation method of LTA as claimed in claim 1 and FAU molecular screen nanocrystalline is characterized in that: solution is the aqueous solution, alcoholic solution or alcohol solution.

5, the preparation method of LTA as claimed in claim 4 and FAU molecular screen nanocrystalline is characterized in that: alcoholic solution is ethanol, methyl alcohol, ethylene glycol or propyl alcohol.

6, the preparation method of LTA as claimed in claim 1 and FAU molecular screen nanocrystalline is characterized in that: mineralizer is a sodium salt.

7, the preparation method of LTA as claimed in claim 5 and FAU molecular screen nanocrystalline is characterized in that: mineralizer is SODIUMNITRATE, sodium sulfate, sodium-chlor, Sodium Fluoride or sodium hydroxide.