CN104226302A - Visible-light response photocatalyst Nd2ZnW3O13 and preparation method thereof - Google Patents
Visible-light response photocatalyst Nd2ZnW3O13 and preparation method thereof Download PDFInfo
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- CN104226302A CN104226302A CN201410481169.3A CN201410481169A CN104226302A CN 104226302 A CN104226302 A CN 104226302A CN 201410481169 A CN201410481169 A CN 201410481169A CN 104226302 A CN104226302 A CN 104226302A
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Abstract
The invention discloses a visible-light response photocatalyst Nd2ZnW3O13 and a preparation method thereof. A chemical composition formula of the photocatalyst is Nd2ZnW3O13. The preparation method comprises the steps as follows: (1), chemical raw materials Nd2O3, ZnO and WO3 with 99.9% analytically pure are weighed and prepared according to the chemical formula of Nd2ZnW3O13; (2), the raw materials prepared in the step (1) are mixed, placed in a ball milling tank, added with zirconia balls and distilled water and subjected to ball milling for 8 h, and the mixture is mixed, milled finely, taken out for drying and screened by a 200-mesh sieve; and (3), powder uniformly mixed in the step (2) is pre-sintered at the temperature of 800 DEG C-850 DEG C, subjected to heat preservation for 6 h and naturally cooled to the room temperature, then the particle diameter becomes smaller than 2 mu m in a ball mill smashing mode, and the Nd2ZnW3O13 powder is obtained. The preparation method is simple, the cost is low, and the prepared photocatalyst has good catalytic performance, a harmful chemical substance degradation function under the visible light irradiation, good stability and good application prospect.
Description
Technical field
The present invention relates to a kind of visible light-responded photochemical catalyst Nd
2znW
3o
13and preparation method thereof, belong to inorganic field of photocatalytic material.
Background technology
Along with socioeconomic development, people more and more pay close attention to for the energy and ecological environment, solve energy shortage and problem of environmental pollution be realize sustainable development, improve people's living standard and safeguard national security in the urgent need to.
From phase late 1970s, there has been proposed and to utilize in photochemical catalyst decomposition water and the organic matter such as agricultural chemicals in air and odorant, and scribble the application example such as self-cleaning of the surface of solids of photochemical catalyst.The principle of light-catalyzed reaction is that photochemical catalyst is after absorbing the photon higher than its band-gap energy, generate hole and electronics, these holes and electronics carry out oxidation reaction and reduction reaction respectively, reach the object of decomposing harmful chemical, organic-biological matter and sterilization.Photochemical catalyst has many kinds, and wherein most representative is titanium dioxide (TiO
2), titanium dioxide has been utilized to decompose organic matters such as the agricultural chemicals in water and in air and odorants, but the band gap of titanium dioxide is 3.2eV, only under the ultraviolet irradiation shorter than 400nm, just activity can be shown, can only at indoor or the local work having uviol lamp, almost can not utilize visible ray, this limits the use of titanium dioxide optical catalyst greatly.
Consider the practicality of photochemical catalyst in decomposing harmful substances, utilize sunshine to be indispensable as light source.Irradiate maximum to sunshine medium wavelength intensity of visible ray near 500nm on earth's surface, wavelength is the energy of the visible region of 400nm ~ 750nm is approximately 43% of sunshine gross energy, so in order to efficient utilization, the R and D of bismuth series photocatalyst have achieved a series of great achievement, and bismuthous compound is as BiVO
4, Bi
2moO
6, Bi
2mo
2o
9, Bi
2mo
3o
12and Bi
2wO
4be in the news and there is good absorption under visible light.A series of niobium (tantalum) hydrochlorate photochemical catalyst is widely studied owing to having higher photocatalytic activity.Such as, niobate photocatalyst Pb
3nb
4o
13, BiNbO
4and Bi
2mNbO
7(M=Al, Ga, In, Y, rare earth element and Fe) etc. with niobium potassium compound oxide photocatalyst as KNbO
3, KNb
3o
8, K
4nb
6o
17and K
6nb
10.6o
30deng all there is good photocatalysis performance.
Although photocatalysis research has carried out the several years, but at present report to have visible light-responded photochemical catalyst kind still very limited, still also exist that light conversion efficiency is low, poor stability and the problem such as spectral response range is narrow, so it is very necessary for researching and developing the new visible light-responded high efficiency photocatalyst that has.We are to consisting of Nd
2znW
3o
13, Y
2znW
3o
13, Sm
2znW
3o
13, Bi
2znW
3o
13compound carried out Photocatalytic Performance Study, found that Nd
2znW
3o
13band gap be 2.77 eV, have excellent visible light-responded photocatalysis performance, the band gap width of other sample is all greater than 3.0eV, just can only can show activity under ultraviolet irradiation.
Summary of the invention
The object of this invention is to provide and a kind of there is visible light-responded photochemical catalyst Nd
2znW
3o
13and preparation method thereof.
The chemical constitution formula with visible light-responded photochemical catalyst that the present invention relates to is: Nd
2znW
3o
13.
Preparation method's concrete steps of above-mentioned visible light-responded photochemical catalyst are:
(1) by 99.9% analytically pure chemical raw material Nd
2o
3, ZnO and WO
3starting powder press Nd
2znW
3o
13composition weigh batching.
(2) raw material mixing step (1) prepared, put into ball grinder, add zirconia ball and distilled water, ball milling 8 hours, is mixed and finely ground, and takes out and dries, and crosses 200 mesh sieves.
(3) powder step (2) mixed 800 ~ 850 DEG C of pre-burnings, and is incubated 6 hours, naturally cools to room temperature, then pulverizes means by ball mill and average diameter of particles is diminished, lower than 2 μm, namely obtain Nd
2znW
3o
13powder.
The spectral response range of the photochemical catalyst that the present invention obtains is wide, the high and good stability of light conversion efficiency, has the effect of decomposing harmful chemical, organic-biological matter and sterilization under visible light illumination; Preparation method is simple in addition, synthesis temperature is low, and cost is low, is applicable to industrial production and application.
Detailed description of the invention
To be specifically described the present invention below:
1, in order to obtain the composite oxides used in the present invention, first use solid-phase synthesis to prepare powder, namely using as the various oxide of raw material or carbonate according to the metering of target constitutional chemistry than mixing, then to synthesize in air atmosphere at ambient pressure.
2, in order to effectively utilize light, the size of the photochemical catalyst in the present invention is preferably in micron level, or even nano particle, and specific area is larger.With oxide powder prepared by solid-phase synthesis, its particle is comparatively large and surface area is less, but can pulverize means by ball mill makes particle diameter diminish.
3, photocatalysis experiment of the present invention is using methyl orange as simulation organic pollution, and its concentration is 20mg/L; Photochemical catalyst Nd
2znW
3o
13addition be 1g/L; Light source uses the xenon lamp of 300W, the vessel that reactive tank uses pyrex to make, and obtains the light that wavelength is greater than 420nm long wavelength, then irradiate photochemical catalyst by wave filter; Catalysis time is set as 60 minutes.
Embodiment 1:
(1) by 99.9% analytically pure chemical raw material Nd
2o
3, ZnO and WO
3starting powder press Nd
2znW
3o
13composition weigh batching.
(2) raw material mixing step (1) prepared, put into ball grinder, add zirconia ball and distilled water, ball milling 8 hours, is mixed and finely ground, and takes out and dries, and crosses 200 mesh sieves.
(3) powder step (2) mixed 800 DEG C of pre-burnings, and is incubated 6 hours, naturally cools to room temperature, then pulverizes means by ball mill and average diameter of particles is diminished, lower than 2 μm, namely obtain Nd
2znW
3o
13powder.
Prepared photochemical catalyst, under being greater than the radiation of visible light of 420nm, reaches 97.1% to methyl orange clearance in 60 minutes at wavelength.
Embodiment 2:
(1) by 99.9% analytically pure chemical raw material Nd
2o
3, ZnO and WO
3starting powder press Nd
2znW
3o
13composition weigh batching.
(2) raw material mixing step (1) prepared, put into ball grinder, add zirconia ball and distilled water, ball milling 8 hours, is mixed and finely ground, and takes out and dries, and crosses 200 mesh sieves.
(3) powder step (2) mixed 830 DEG C of pre-burnings, and is incubated 6 hours, naturally cools to room temperature, then pulverizes means by ball mill and average diameter of particles is diminished, lower than 2 μm, namely obtain Nd
2znW
3o
13powder.
Prepared photochemical catalyst, under being greater than the radiation of visible light of 420nm, reaches 98.7% to methyl orange clearance in 60 minutes at wavelength.
Embodiment 3:
(1) by 99.9% analytically pure chemical raw material Nd
2o
3, ZnO and WO
3starting powder press Nd
2znW
3o
13composition weigh batching.
(2) raw material mixing step (1) prepared, put into ball grinder, add zirconia ball and distilled water, ball milling 8 hours, is mixed and finely ground, and takes out and dries, and crosses 200 mesh sieves.
(3) powder step (2) mixed 850 DEG C of pre-burnings, and is incubated 6 hours, naturally cools to room temperature, then pulverizes means by ball mill and average diameter of particles is diminished, lower than 2 μm, namely obtain Nd
2znW
3o
13powder.
Prepared photochemical catalyst, be greater than the radiation of visible light of 420nm at wavelength under, 60min reaches 98.0% to methyl orange clearance.
The present invention is never limited to above embodiment.Bound, the interval value of each temperature can realize the present invention, do not enumerate embodiment at this.
The made photocatalyst powder of above inventive embodiments can be carried on multiple matrix surface.Matrix can be glass, pottery, active carbon or quartz sand etc., and photochemical catalyst can be carried on matrix surface in the form of a film.
Claims (1)
1. a visible light-responded photochemical catalyst, is characterized in that the chemical constitution formula of described photochemical catalyst is: Nd
2znW
3o
13;
Preparation method's concrete steps of described photochemical catalyst are:
(1) by 99.9% analytically pure chemical raw material Nd
2o
3, ZnO and WO
3starting powder press Nd
2znW
3o
13composition weigh batching;
(2) raw material mixing step (1) prepared, put into ball grinder, add zirconia ball and distilled water, ball milling 8 hours, is mixed and finely ground, and takes out and dries, and crosses 200 mesh sieves;
(3) powder step (2) mixed 800 ~ 850 DEG C of pre-burnings, and is incubated 6 hours, naturally cools to room temperature, then pulverizes means by ball mill and makes average diameter of particles lower than 2 μm, namely obtain Nd
2znW
3o
13powder.
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CN201410481169.3A CN104226302A (en) | 2014-09-20 | 2014-09-20 | Visible-light response photocatalyst Nd2ZnW3O13 and preparation method thereof |
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CN104226302A true CN104226302A (en) | 2014-12-24 |
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ID=52215726
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104645971A (en) * | 2015-02-04 | 2015-05-27 | 桂林理工大学 | Visible-light response photocatalyst SmNb3W2O15 and preparation method thereof |
CN104667906A (en) * | 2015-02-03 | 2015-06-03 | 桂林理工大学 | Visible light responding photocatalyst NdW2O9 and preparation method thereof |
CN105268426A (en) * | 2015-10-10 | 2016-01-27 | 桂林理工大学 | Visible light responsive photocatalyst Li3Zn2Nd5O11 and preparation method thereof |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012121677A1 (en) * | 2011-03-09 | 2012-09-13 | Nanyang Technological University | Method for depositing gradient films on a substrate surface by atomic layer deposition |
CN104043444A (en) * | 2014-06-02 | 2014-09-17 | 桂林理工大学 | Visible light responsive photocatalyst Li2ZnW2O8 and preparation method thereof |
-
2014
- 2014-09-20 CN CN201410481169.3A patent/CN104226302A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012121677A1 (en) * | 2011-03-09 | 2012-09-13 | Nanyang Technological University | Method for depositing gradient films on a substrate surface by atomic layer deposition |
CN104043444A (en) * | 2014-06-02 | 2014-09-17 | 桂林理工大学 | Visible light responsive photocatalyst Li2ZnW2O8 and preparation method thereof |
Non-Patent Citations (1)
Title |
---|
崔玉民等: "Nd/ZnO制备及其光催化性能研究", 《应用化工》 * |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104667906A (en) * | 2015-02-03 | 2015-06-03 | 桂林理工大学 | Visible light responding photocatalyst NdW2O9 and preparation method thereof |
CN104645971A (en) * | 2015-02-04 | 2015-05-27 | 桂林理工大学 | Visible-light response photocatalyst SmNb3W2O15 and preparation method thereof |
CN105268426A (en) * | 2015-10-10 | 2016-01-27 | 桂林理工大学 | Visible light responsive photocatalyst Li3Zn2Nd5O11 and preparation method thereof |
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