CN103861593A

CN103861593A - Chromium-silver co-doped nano TiO2 photo-catalyst, and preparation method and use thereof

Info

Publication number: CN103861593A
Application number: CN201410113797.6A
Authority: CN
Inventors: 高淑雅; 刘杰; 董亚琼; 陈维铅
Original assignee: Shaanxi University of Science and Technology
Current assignee: Shaanxi University of Science and Technology
Priority date: 2014-03-25
Filing date: 2014-03-25
Publication date: 2014-06-18
Anticipated expiration: 2034-03-25
Also published as: CN103861593B

Abstract

The invention discloses a chromium-silver co-doped nano TiO2 photo-catalyst, and a preparation method and the use thereof. By using a sol-gel method, the preparation method comprises the following steps: (1) adding butyl titanate into absolute ethyl alcohol, dropwise adding glacial acetic acid, and performing magnetic stirring and uniform mixing to obtain a solution A; (2) dissolving silver nitrate which corresponds to titanium particles and has a molar fraction of 0.1-1 percent, and chromic nitrate which has a molar fraction of 0.5-2.5 percent into distilled water, injecting into the absolute ethyl alcohol, dropwise adding the glacial acetic acid and dilute nitric acid, and stirring to obtain a solution B; (3) dropwise adding the solution B into the solution A, and stirring and aging the solutions to form gel; (4) drying the gel to obtain dried gel; and (5) grinding the dried gel into powder, and firing the powder in air at the temperature of 400-700 DEG C to obtain the chromium-silver co-doped nano TiO2 photo-catalyst. A chromium-silver co-doped nano TiO2 photo-catalytic material is fine and uniform in powder granularity, and high in photo-catalytic activity; the average particle size is 10-25nm.

Description

A kind of chromium silver co-doped nano TiO 2photochemical catalyst and its production and use

Technical field:

The invention belongs to photocatalysis technology field, particularly a kind of chromium silver co-doped nano TiO ₂photochemical catalyst and preparation method thereof.

Background technology:

Titanium dioxide (TiO ₂) conduct the most promising catalysis material instantly, in the depollution of environment, sewage disposal, the fields such as organic matter degradation have broad application prospects.Due to TiO ₂greater band gap (3.2eV), does not respond visible ray, and light induced electron-hole is high to recombination rate, and quantum efficiency is low, has therefore limited TiO ₂promote the use of.

Element doping is to realize nano-TiO ₂photochemical catalyst is to visible light-responded a kind of effective means: on the one hand, ion doping can be at TiO ₂in forbidden band, introduce impurity energy level and defect level, band gap is narrowed, be beneficial to electronics and transit to conduction band from valence band, thereby by TiO ₂spectral response range extend to visible region; On the other hand, doping ion is introduced defect on surface, becomes electron capture center, has suppressed the compound of electron-hole pair, has improved quantum efficiency.The employing coprecipitations such as Yan Junping have been prepared the TiO of Cr doping ₂photochemical catalyst, shows: containing transition metal ion Cr ³⁺expand TiO ₂photoresponse scope.Cr ³⁺substitute TiO ₂ti in lattice ⁴⁺, in lattice, introduce new energy level and form defect, reduce energy gap, improve the photocatalytic activity of material.Dong Yihui etc. have prepared Ag-TiO ₂composite nano fiber, the doping of Ag not only can promote TiO after tested ₂transformation from from Anatase to Rutile Type, and appropriate Ag doping can increase substantially TiO ₂photocatalytic activity, work as AgNO ₃doping while being 1wt%, photocatalytic activity is best.Li Yan etc. have invented a kind of iron and chromium co-doped nano TiO ₂/ zeolite compound photocatalyst and method for making thereof (Chinese patent, number of patent application: 201010101536.4), show the nano-TiO of iron and chromium codope ₂there is good photocatalytic activity.

Summary of the invention:

The object of the invention is to, a kind of chromium silver co-doped nano TiO is provided ₂photochemical catalyst and its production and use.Cr provided by the invention and Ag co-doped nano TiO ₂photochemical catalyst is one-dimensional nano structure, has good visible light catalysis activity.

To achieve these goals, the present invention adopts following technical scheme:

A kind of chromium silver co-doped nano TiO ₂photochemical catalyst, nano-TiO ₂the silver ion of doping molar fraction 0.1%～1% and 0.5%～2.5% chromium ion, Cr ³⁺replace Ti ⁴⁺enter lattice, silver ion is present in grain surface with oxide form.

The present invention further improves and is: nano-TiO ₂photochemical catalyst is Detitanium-ore-type.

The present invention further improves and is: the TiO of described chromium silver codope ₂photochemical catalyst extends to 580nm at the absorption band edge of visible region.

The present invention further improves and is: the TiO of described chromium silver codope ₂photochemical catalyst particle diameter is 10nm～25nm.

A kind of chromium silver co-doped nano TiO ₂the preparation method of catalysis material, comprises the following steps:

(1) butyl titanate is added in absolute ethyl alcohol, drip glacial acetic acid, magnetic agitation, to evenly mixing, obtains solution A; In step (1), the volume ratio of butyl titanate, absolute ethyl alcohol, glacial acetic acid is 5:10:1;

(2) silver nitrate and chromic nitrate are dissolved in after distilled water, inject absolute ethyl alcohol, drip glacial acetic acid and rare nitric acid, magnetic agitation, to evenly mixing, obtains solution B; In step (2), the volume ratio of distilled water, absolute ethyl alcohol, glacial acetic acid and rare nitric acid is 1:10:1:1; In step (2), the volume of absolute ethyl alcohol is identical with the volume of absolute ethyl alcohol in step (1); The addition of silver nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 0.1～1.0%; The addition of ferric nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 0.5～2.5%;

(3) under stirring condition, solution B is splashed in solution A, after being added dropwise to complete, continue stirring until evenly, then ageing forms gel;

(4) gained gel is dried and within 24～48 hours, obtains xerogel at 60～80 DEG C;

(5) xerogel is milled into powder, then calcination in 400～700 DEG C of air, obtains the TiO of chromium silver codope ₂photochemical catalyst.

The present invention further improves and is: in step (2), the concentration of rare nitric acid is 0.1mol/L.

The present invention further improves and is: in step (1), the volume of butyl titanate is 2mL.

The present invention further improves and is: in step (2) addition of silver nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 0.5%; The addition of ferric nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 1.0%; In step (4), the temperature of calcination is 500 DEG C.

The present invention further improves and is: the digestion time of step (3) is 48 hours; The calcination time of step (4) is 2 hours.

Chromium silver co-doped nano TiO ₂photochemical catalyst under visible ray for the application of organic pollutant degradation processing.

With respect to prior art, the present invention has following beneficial effect:

1, the present invention has prepared chromium silver co-doped nano TiO by sol-gel process ₂, this photochemical catalyst has good visible absorption performance, can extend to 580nm at the absorption band edge of visible region.

2, the chromium silver co-doped nano TiO that prepared by the present invention ₂under visible ray, show excellent photocatalysis performance, exceeded TiO ₂industrial products (P25). degraded methyl orange test in, the photochemical catalyst that sample molar fraction is 0.5%Ag-1.0Cr% is most effective, he has exceeded approximately 40% to 3 of methyl orange hours degradation and decolorization rates than P25.

The doping meeting of Cr of the present invention is at TiO ₂forbidden band in introduce impurity energy level, reduce energy gap, and expand visible light-responded region, the doping of Ag can effectively suppress the compound of hole-duplet, improves photo-quantum efficiency, and photocatalytic activity is further improved.

Brief description of the drawings

Fig. 1 is chromium silver co-doped nano TiO ₂the XRD collection of illustrative plates of powder;

Fig. 2 is chromium silver co-doped nano TiO ₂the SEM figure of powder;

Fig. 3 is the absorbance curve map of methyl orange stoste and degraded clear liquid;

Fig. 4 is the degradation rate change curve of methyl orange in Visible Light Induced Photocatalytic process.

Detailed description of the invention

Further illustrate the present invention below in conjunction with embodiment, there is no restriction composition.

Embodiment 1

The invention provides a kind of chromium silver co-doped nano TiO ₂the preparation method of photochemical catalyst, adopts sol-gel process, and concrete operating procedure is:

(1) 10mL butyl titanate is added in 20mL absolute ethyl alcohol, drip 2mL glacial acetic acid, magnetic agitation obtains solution A to evenly mixing in 30 minutes;

(2) silver nitrate and ferric nitrate are dissolved in after 2mL distilled water, inject 20mL absolute ethyl alcohol, drip 2mL glacial acetic acid, the rare nitric acid of 2mL (concentration 0.1mol/L), magnetic agitation obtains solution B to evenly mixing in 25 minutes; The addition of silver nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 0.1%; The addition of ferric nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 0.5%;

(3) under intense agitation, solution B is slowly splashed in solution A, be added dropwise to complete rear lasting stirring 20 minutes, ageing 48 hours, forms gel;

(5) xerogel is milled into powder, then calcination in 400 DEG C of air, time 2 h, obtains the nano-TiO of chromium silver codope ₂catalysis material.

Embodiment 2

(2) silver nitrate and ferric nitrate are dissolved in after 2mL distilled water, inject 20mL absolute ethyl alcohol, drip 2mL glacial acetic acid, the rare nitric acid of 2mL (concentration 0.1mol/L), magnetic agitation obtains solution B to evenly mixing in 25 minutes; The addition of silver nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 0.5%; The addition of ferric nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 1.0%;

(5) xerogel is milled into powder, then calcination in 500 DEG C of air, time 2 h, obtains the nano-TiO of chromium silver codope ₂catalysis material.

In the present embodiment, obtain and under visible ray, there is the chromium element of higher efficiency of light absorption and photocatalytic activity and the nano-TiO of silver element codope ₂catalysis material, the nano-TiO of this chromium silver codope ₂in photochemical catalyst: the molar fraction of silver element doping is 0.5%, the molar fraction of chromium element is 1.0%.

Fig. 1 is the XRD collection of illustrative plates of embodiment 2 gained samples, can find out, chromium silver co-doped nano TiO prepared by the present invention ₂photochemical catalyst is Anatase, has no impurity peaks.Chromium element and silver element do not detect, are because doping reason very little.

Fig. 2 is the SEM collection of illustrative plates of embodiment 2 gained samples, can find out the nano-TiO that the present invention is prepared ₂powder crystal grain is very even, the generation of substantially not reuniting, and particle diameter is in 20nm left and right.

Embodiment 3

(2) silver nitrate and ferric nitrate are dissolved in after 2mL distilled water, inject 20mL absolute ethyl alcohol, drip 2mL glacial acetic acid, the rare nitric acid of 2mL (concentration 0.1mol/L), magnetic agitation obtains solution B to evenly mixing in 25 minutes; The addition of silver nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 1.0%; The addition of ferric nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 2.5%;

(5) xerogel is milled into powder, then calcination in 700 DEG C of air, time 2 h, obtains the nano-TiO of chromium silver codope ₂catalysis material.

Chromium silver co-doped nano TiO ₂photocatalyst for degrading methyl orange.

Adopt chromium silver co-doped nano TiO ₂photochemical catalyst carries out solar irradiation degraded to the methyl orange of 20mg/L, PH=3.

Implementation step:

(1) catalyst puts into by the injected volume of 0.6g/L the methyl orange solution that 100mL concentration is 20mg/L;

(2) degraded light source uses sunshine, and the time is 3 hours noons;

(3) after timing sampling, apply visible light splitting protractor and detect the situation of change of methyl orange in solution;

The degraded check experiment of P25 is identical with above-mentioned steps.

Fig. 3 is the absorbance curve of clear liquid after methyl orange stoste, P25 and embodiment 2 sample degraded methyl oranges.Can find out, the methyl orange solution that this experiment is prepared produces maximum absorption band at 500nm place.Compared with P25, the absorbance of the clear liquid obtaining after the prepared sample degraded of embodiment 2 methyl orange has had significantly decline.

Fig. 4 is under visible ray condition, chromium silver co-doped nano TiO ₂the degradation rate timesharing curve map of photochemical catalyst and P25 degraded methyl orange.Chromium in example 2 silver co-doped nano TiO as seen from the figure ₂the speed of photocatalyst for degrading methyl orange will, higher than P25, be seen by corresponding period degradation efficiency simultaneously, is also better than P25; The methyl orange degradation efficiency of 3 hours, the chromium silver co-doped nano TiO of example 2 ₂photochemical catalyst has improved 40% than P25.Can find out from example 2, under visible ray condition, with respect to industrial P25, chromium silver co-doped nano TiO of the present invention ₂photochemical catalyst has had significant raising in the degraded speed of methyl orange and efficiency.

Claims

1. a chromium silver co-doped nano TiO ₂photochemical catalyst, is characterized in that, nano-TiO ₂the silver ion of doping molar fraction 0.1%～1% and 0.5%～2.5% chromium ion, Cr ³⁺replace Ti ⁴⁺enter lattice, silver ion is present in grain surface with oxide form.

2. a kind of chromium silver co-doped nano TiO according to claim 1 ₂photochemical catalyst, is characterized in that, nano-TiO ₂photochemical catalyst is Detitanium-ore-type.

3. a kind of chromium silver co-doped nano TiO according to claim 1 ₂photochemical catalyst, is characterized in that, the TiO of described chromium silver codope ₂photochemical catalyst extends to 580nm at the absorption band edge of visible region.

4. a kind of chromium silver co-doped nano TiO according to claim 1 ₂photochemical catalyst, is characterized in that, the TiO of described chromium silver codope ₂photochemical catalyst particle diameter is 10nm～25nm.

5. a chromium silver co-doped nano TiO ₂the preparation method of catalysis material, is characterized in that, comprises the following steps:

6. a kind of chromium silver co-doped nano TiO according to claim 5 ₂the preparation method of catalysis material, is characterized in that, in step (2), the concentration of rare nitric acid is 0.1mol/L.

7. a kind of chromium silver co-doped nano TiO according to claim 5 ₂the preparation method of catalysis material, is characterized in that, in step (1), the volume of butyl titanate is 2mL.

8. a kind of chromium silver co-doped nano TiO according to claim 5 ₂the preparation method of catalysis material, is characterized in that, in step (2) addition of silver nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 0.5%; The addition of ferric nitrate be corresponding titanium particle in step (1) gained solution A molar fraction 1.0%; In step (4), the temperature of calcination is 500 DEG C.

9. a kind of chromium silver co-doped nano TiO according to claim 5 ₂the preparation method of catalysis material, is characterized in that, the digestion time of step (3) is 48 hours; The calcination time of step (4) is 2 hours.

10. the silver of the chromium described in any one co-doped nano TiO in claim 1 to 4 ₂chromium silver co-doped nano TiO in photochemical catalyst or claim 5 to 9 described in any one ₂the prepared chromium silver co-doped nano TiO of preparation method of catalysis material ₂photochemical catalyst under visible ray for the purposes of organic pollutant degradation processing.