CN106268843A - A kind of visible light-responded photocatalyst Li2fe4sn3o13and preparation method thereof - Google Patents

Abstract

The invention discloses the visible light responsive photocatalyst Li of a kind of high-efficient wide-frequency₂Fe₄Sn₃O₁₃And preparation method thereof.The chemical constitution formula of this photocatalyst is Li₂Fe₄Sn₃O₁₃.The invention also discloses the preparation method of above-mentioned material.The photocatalyst that the present invention obtains has the advantages such as spectral response range width, light conversion efficiency height and good stability and has decomposition harmful chemical, organic-biological matter and the effect of sterilization under visible light illumination；Additionally preparation method is simple, synthesis temperature is low, low cost, is suitable for commercial production and application.

Description

A kind of visible light-responded photocatalyst Li2Fe4Sn3O13And preparation method thereof

Technical field

The present invention relates to a kind of visible light-responded photocatalyst Li₂Fe₄Sn₃O₁₃And preparation method thereof, belong to inorganic light and urge Formed material field.

Background technology

Along with socioeconomic development, people increasingly pay close attention to for the energy and ecological environment, solve energy shortage and ring Environment pollution problem 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 utilize in photocatalyst decomposition water and the pesticide in air and evil The Organic substances such as sordes matter, and the application example such as the self-cleaning scribbling the surface of solids of photocatalyst.Light-catalyzed reaction former Reason be photocatalyst after absorbing higher than the photon of its band-gap energy, generate hole and electronics, these holes and electronics divide Do not carry out oxidation reaction and reduction reaction, reach to decompose harmful chemical, organic-biological matter and the purpose of sterilization.Photocatalyst Having many kinds, the most most representative is titanium dioxide (TiO₂), utilize titanium dioxide to the agriculture in water and in air The Organic substance such as medicine and odorant decomposes, but the band gap of titanium dioxide is 3.2eV, only in the ultraviolet shorter than 400nm Just can show activity under the irradiation of line, can only be little to utilize visible ray at indoor or the local work having uviol lamp, This greatly limits the use of titanium dioxide optical catalyst.

In view of photocatalyst practicality in decomposing harmful substances, it is indispensable for utilizing sunlight as light source 's.Irradiate sunlight medium wavelength maximum intensity of visible ray near 500nm to earth's surface, wavelength be 400nm～750nm can The energy in Jian Guang district is about the 43% of sunlight gross energy, so in order to utilize efficiently, the exploitation of bismuth series photocatalyst and Research has been achieved for a series of great achievement, bismuthous complex such as BiVO₄、Bi₂MoO₆、Bi₂Mo₂O₉、Bi₂Mo₃O₁₂ And Bi₂WO₄It is in the news and there is good absorption under visible light.A series of niobiums (tantalum) hydrochlorate photocatalyst is higher owing to having Photocatalytic activity and be widely studied.Such as, niobate photocatalyst Pb₃Nb₄O₁₃、BiNbO₄And Bi₂MNbO₇(M=Al, Ga, In, Y, rare earth element and Fe) etc. and niobium potassium compound oxide photocatalyst such as KNbO₃、KNb₃O₈、K₄Nb₆O₁₇And K₆Nb_10.6O₃₀Deng All there is preferable photocatalysis performance, but its intrinsic photocatalytic effect is the most weak in visible-range or does not has activity.

Although photocatalysis research has been carried out the several years, the exploration to visible light-responded photocatalyst is big with exploitation at present Part is the summary of experience drawn by great many of experiments, the most also cannot be from the crystal structure of compound, composition, molecule Predicting its photocatalysis performance in the physicochemical properties such as amount, that therefore reports at present has visible light-responded photocatalyst kind the most very Limited, and also exist that light conversion efficiency is low, synthesis difficulty, poor stability and problem, the research and development such as spectral response range is narrow New preparation method is simple and to have the visible light-responded high efficiency photocatalyst of wideband be that this area scientific and technical personnel thirst for solving always Determine but be difficult to the difficult problem succeeded all the time, which greatly limits extensively application and the development of photocatalyst.We To consisting of Li₂Fe₄Sn₃O₁₃And Li₂Fe₄Ge₃O₁₃Sample carried out Photocatalytic Performance Study.Found that Li₂Fe₄Sn₃O₁₃ Band gap width is 2.63eV, has the visible light-responded photocatalysis performance of excellence；Li₂Fe₄Ge₃O₁₃For insulator, at ultraviolet Irradiation under the most do not show activity.

Summary of the invention

It is an object of the invention to provide and a kind of there is visible light-responded photocatalyst Li₂Fe₄Sn₃O₁₃And preparation method thereof.

The chemical constitution formula with visible light-responded photocatalyst that the present invention relates to is: Li₂Fe₄Sn₃O₁₃。

The preparation method of above-mentioned visible light-responded photocatalyst concretely comprises the following steps:

(1) by 99.9% analytically pure chemical raw material Li₂CO₃、Fe₂O₃And SnO₂Powder press Li₂Fe₄Sn₃O₁₃Composition Weigh dispensing.

(2) raw material mixing step (1) prepared, puts in ball grinder, adds zirconia ball and dehydrated alcohol, ball milling 8 Hour, it is mixed and finely ground, takes out and dry, cross 200 mesh sieves.

(3) by the powder of step (2) mix homogeneously 1100～1150 DEG C of pre-burnings, and it is incubated 6 hours, naturally cools to room Temperature, is then pulverized by ball mill and makes average diameter of particles diminish, less than 2 μm, i.e. obtain Li₂Fe₄Sn₃O₁₃Powder.

Advantages of the present invention: Li₂Fe₄Sn₃O₁₃The visible light-responded wide frequency range of photocatalyst, light conversion efficiency high and Good stability, has decomposition harmful chemical, organic-biological matter and the effect of sterilization under visible light illumination；The additionally side of preparation Method is simple, synthesis temperature is low, low cost, is suitable for commercial production and application.

Detailed description of the invention

Present invention will be described in detail below:

1, in order to obtain the composite oxides used in the present invention, prepare powder first by solid-phase synthesis, i.e. Various oxides or carbonate as raw material mix according to target constitutional chemistry metering ratio, more at ambient pressure in air gas Atmosphere synthesizes.

2 in order to effectively utilize light, and the size of the photocatalyst in the present invention, preferably in micron level, is even received Rice corpuscles, and specific surface area is bigger.The oxide powder prepared with solid-phase synthesis, its particle is relatively big and surface area is less, but Can be by ball mill pulverizing means makes particle diameter diminish.

3, the photocatalysis experiment of the present invention is using methyl orange as simulation organic pollution, and its concentration is 20mg/L；Photocatalysis Agent Li₂Fe₄Sn₃O₁₃Addition be 1g/L；Light source uses the xenon lamp of 300W, and reactive tank uses the vessel that pyrex is made, Obtain the wavelength light more than 420nm by wave filter, then irradiate photocatalyst；Catalysis time is set as 60 minutes.

Embodiment 1:

(1) by analytical pure chemical raw material Li₂CO₃、Fe₂O₃And SnO₂Powder press Li₂Fe₄Sn₃O₁₃Composition weigh dispensing.

(2) raw material mixing step (1) prepared, puts in ball grinder, adds zirconia ball and dehydrated alcohol, ball milling 8 Hour, it is mixed and finely ground, takes out and dry, cross 200 mesh sieves.

(3) by the powder of step (2) mix homogeneously 1100 DEG C of pre-burnings, and it is incubated 6 hours, naturally cools to room temperature, so Being pulverized by ball mill afterwards makes average diameter of particles diminish, and less than 2 μm, i.e. obtains Li₂Fe₄Sn₃O₁₃Powder.

Prepared photocatalyst, under the wavelength radiation of visible light more than 420nm, reaches for 60 minutes to methyl orange clearance To 97.2%.

Embodiment 2:

(1) by analytical pure chemical raw material Li₂CO₃、Fe₂O₃And SnO₂Powder press Li₂Fe₄Sn₃O₁₃Composition weigh dispensing.

(2) raw material mixing step (1) prepared, puts in ball grinder, adds zirconia ball and dehydrated alcohol, ball milling 8 Hour, it is mixed and finely ground, takes out and dry, cross 200 mesh sieves.

(3) by the powder of step (2) mix homogeneously 1130 DEG C of pre-burnings, and it is incubated 6 hours, naturally cools to room temperature, so Being pulverized by ball mill afterwards makes average diameter of particles diminish, and less than 2 μm, i.e. obtains Li₂Fe₄Sn₃O₁₃Powder.

Prepared photocatalyst, under the wavelength radiation of visible light more than 420nm, reaches for 60 minutes to methyl orange clearance To 98.6%.

Embodiment 3:

(1) by analytical pure chemical raw material Li₂CO₃、Fe₂O₃And SnO₂Powder press Li₂Fe₄Sn₃O₁₃Composition weigh dispensing.

(2) raw material mixing step (1) prepared, puts in ball grinder, adds zirconia ball and dehydrated alcohol, ball milling 8 Hour, it is mixed and finely ground, takes out and dry, cross 200 mesh sieves.

(3) by the powder of step (2) mix homogeneously 1150 DEG C of pre-burnings, and it is incubated 6 hours, naturally cools to room temperature, so Being pulverized by ball mill afterwards makes average diameter of particles diminish, and less than 2 μm, i.e. obtains Li₂Fe₄Sn₃O₁₃Powder.

Prepared photocatalyst, under the wavelength radiation of visible light more than 420nm, methyl orange clearance is reached by 60min To 98.0%.

The present invention is never limited to above example.The bound of each temperature, interval value can realize the present invention, at this not Enumerate embodiment.

The made photocatalyst powder of above inventive embodiments can be carried on multiple matrix surface.Matrix can be glass Glass, pottery, activated carbon or quartz sand etc., photocatalyst can be carried on matrix surface in the form of a film.

Claims (1)

1. the photocatalyst that a high-efficient wide-frequency is visible light-responded, it is characterised in that the chemical composition of described photocatalyst is Li₂Fe₄Sn₃O₁₃；

The preparation method of described photocatalyst concretely comprises the following steps:

(1) by analytical pure chemical raw material Li₂CO₃、Fe₂O₃And SnO₂Powder press Li₂Fe₄Sn₃O₁₃Composition weigh dispensing；

(2) raw material mixing step (1) prepared, puts in ball grinder, addition zirconia ball and dehydrated alcohol, ball milling 8 hours, It is mixed and finely ground, takes out and dry, cross 200 mesh sieves；

(3) by the powder of step (2) mix homogeneously 1100～1150 DEG C of pre-burnings, and it is incubated 6 hours, naturally cools to room temperature, Then being pulverized by ball mill makes average diameter of particles be less than 2 μm, i.e. obtains photocatalyst Li₂Fe₄Sn₃O₁₃Powder.