CN106799247B - A kind of Bi24O31Br10/In2O3Heterojunction photocatalyst - Google Patents

A kind of Bi24O31Br10/In2O3Heterojunction photocatalyst Download PDF

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CN106799247B
CN106799247B CN201710055515.5A CN201710055515A CN106799247B CN 106799247 B CN106799247 B CN 106799247B CN 201710055515 A CN201710055515 A CN 201710055515A CN 106799247 B CN106799247 B CN 106799247B
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CN106799247A (en
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黄继涛
崔春娜
颜桂炀
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Ningde Normal University
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Abstract

The present invention provides a kind of Bi24O31Br10/In2O3Heterojunction photocatalyst, including Bi24O31Br10Nanometer sheet and uniform adsorption are in the Bi24O31Br10In in nanometer sheet2O3Nano particle, wherein the In2O3The partial size of nano particle is 50~200nm, the Bi24O31Br10The size of nanometer sheet is 500~0.1 μm.The Bi24O31Br10/In2O3Efficiently separating for electron-hole may be implemented when light-catalyzed reaction carries out in heterojunction photocatalyst.

Description

A kind of Bi24O31Br10/In2O3Heterojunction photocatalyst
Technical field
The present invention relates to a kind of heterojunction photocatalyst, in particular to a kind of Bi24O31Br10/In2O3Heterojunction photocatalysis Agent.
Background technique
With the problem of environmental pollution got worse, photocatalysis technology by widely be used to study photolysis water hydrogen and Degradable organic pollutant etc..Wherein, TiO2It is the photochemical catalyst earliest for degradable organic pollutant, but due to its band-gap energy (~3.2eV) it is larger, response can only be generated to ultraviolet light of the solar spectrum less than 5% is accounted for, therefore significantly limit its application. Developing the photochemical catalyst of visible light absorbing at present and promoting efficiently separating for electron-hole pair by construction composite material is light The hot spot of catalytic field research.
With the research and development of new materials such as metal composite oxide, mixed-metal oxides in recent years, mention significantly The high functionality and application range of oxide.Wherein, bismuth-based oxide and its compound because its with special electronic structure, Lesser band gap and the discrete feature of valence band, migrate light induced electron from valence band to conduction band, to reach photocatalysis drop Solve the purpose of pollutant.And In2O3As a kind of photosensitizer, be commonly used to it is compound with wide band gap semiconducter, to improve the visible of material Photocatalysis performance.
In photocatalyst applications, two kinds of different semiconductor materials progress that position of energy band is matched are compound, can be with shape At type II type hetero-junctions, the recombination rate of material internal electrons and holes can be reduced.
Summary of the invention
In view of this, it is necessary to provide a kind of Bi24O31Br10/In2O3Heterojunction photocatalyst.
A kind of Bi24O31Br10/In2O3Heterojunction photocatalyst, the Bi24O31Br10/In2O3Heterojunction photocatalyst packet Include Bi24O31Br10Nanometer sheet and uniform adsorption are in the Bi24O31Br10In in nanometer sheet2O3Nano particle, wherein described In2O3The partial size of nano particle is 50~200nm, the Bi24O31Br10The size of nanometer sheet is 500~0.1 μm.
As further improved, the In2O3The partial size of nano particle is 80~120nm.
As further improved, the In2O3The partial size of nano particle is 100nm.
As further improved, Bi24O31Br10/In2O3Heterojunction photocatalyst is prepared by following steps:
S1, by In (NO3)3It is dissolved in the first solvent with PEG-400, obtains clear solution;
S2 prepares Bi24O31Br10Nanometer sheet, and be added into the clear solution and impregnate, it is heated at 70~100 DEG C Obtain mixture;And
The mixture is annealed at 380-450 DEG C, is cooled to room temperature to obtain Bi by S324O31Br10/In2O3Hetero-junctions light is urged Agent.
As further improved, in step s 2, the preparation Bi24O31Br10The step of nanometer sheet includes:
BiOBr particle is distributed in ethylene glycol by S21, and is flowed back at 90~120 DEG C;And
Step S21 substance obtained is gradually heated up and is heated to 600 DEG C by S22, and the heat preservation predetermined time obtains Bi24O31Br10Nanometer sheet.
The present invention also provides a kind of Bi24O31Br10/In2O3Heterojunction photocatalyst, the Bi24O31Br10/In2O3It is heterogeneous Photochemical catalyst is tied by Bi24O31Br10Nanometer sheet and uniform adsorption are in the Bi24O31Br10In in nanometer sheet2O3Nano particle Composition, wherein the In2O3The partial size of nano particle is 50~200nm, the Bi24O31Br10The size of nanometer sheet be 500~ 0.1μm。
Since in photocatalyst applications, it is mainly that energy band matches that composite material, which is made, in N-type semiconductor material Two kinds of substances combine, to play a part of to reduce electrons and holes recombination rate.Bi24O31Br10Although nanometer sheet can be absorbed can It is light-exposed, but light excites the recombination rate for being formed by electrons and holes pair higher, therefore to increase to sunlight in larger scope Effective use and promote efficiently separating for electrons and holes, by the present invention in that with Cubic In2O3With Bi24O31Br10Nanometer Piece progress is compound, that is, utilizes annealing method by In2O3Particle is attached to Bi24O31Br10Match in nanometer sheet to prepare band structure Bi24O31Br10/In2O3Composite visible light catalyst.The band structure, which matches, refers to Bi24O31Br10Valence band and conduction band Position and In2O3Conduction band and valence band location can form typical II type heterojunction structure, by by In2O3Particle is attached to Bi24O31Br10In nanometer sheet, in Bi24O31Br10With In2O3Contact surface on form activated centre, Bi24O31Br10Nanometer sheet light After excitation, electrons are transferred to In on conduction band2O3Conduction band on, and In2O3The hole that light excitation generates in valence band can shift To Bi24O31Br10Valence band on, these active materials can realize effective drop to water pollutant by different reaction process Solution realizes efficiently separating for electrons and holes, improves the photocatalysis efficiency of semiconductor material.Guaranteeing Bi24O31Br10To can It is light-exposed still have absorption in the case where, additionally it is possible to so that visible absorption range is broadened and electrons and holes efficiently separate compound urges Agent.
Detailed description of the invention
Fig. 1 is Bi prepared by the present invention24O31Br10/In2O3The stereoscan photograph of heterojunction photocatalyst.
Fig. 2 is present invention preparation Bi24O31Br10/In2O3The method flow diagram of heterojunction photocatalyst.
Fig. 3 is the Bi under visible light photograph24O31Br10/In2O3Heterojunction photocatalyst and Bi24O31Br10With In2O3Mixing Degradation curve of the photochemical catalyst to rhodamine B.
Specific embodiment
Below in conjunction with drawings and embodiments to Bi of the invention24O31Br10/In2O3Heterojunction photocatalyst and its system Preparation Method makees specific introduce.
Referring to Fig. 1, the embodiment of the present invention provides a kind of Bi24O31Br10/In2O3Heterojunction photocatalyst, including Bi24O31Br10Nanometer sheet and uniform adsorption are in the Bi24O31Br10In in nanometer sheet2O3Nano particle, wherein described In2O3The partial size of nano particle is 50~200nm, the Bi24O31Br10The size of nanometer sheet is 500~0.1 μm.It is described Bi24O31Br10The size of nanometer sheet refers to, from the Bi24O31Br10One endpoint of nanometer sheet reaches the maximum distance at other end end. Preferably, the In2O3The partial size of nano particle is 80~120nm.In the present embodiment, the In2O3The partial size of nano particle is about For 100nm.Preferably, the Bi24O31Br10The size of nanometer sheet is 20~5 μm.The Bi24O31Br10Nanometer sheet is mutual heap Folded layer structure.
In other embodiments, the Bi24O31Br10/In2O3Heterojunction photocatalyst is by Bi24O31Br10Nanometer sheet and Uniform adsorption is in the Bi24O31Br10In in nanometer sheet2O3Nano particle composition.
Referring to Fig. 2, the embodiment of the present invention provides above-mentioned Bi24O31Br10/In2O3The preparation method of heterojunction photocatalyst, The following steps are included:
S1, by In (NO3)3It is dissolved in the first solvent with PEG-400, obtains clear solution;
S2 prepares Bi24O31Br10Nanometer sheet, and be added into the clear solution and impregnate, it is heated at 70~100 DEG C Obtain mixture;And
The mixture is annealed at 380-450 DEG C, is cooled to room temperature to obtain Bi by S324O31Br10/In2O3Hetero-junctions light is urged Agent.
In step sl, the In (NO3)3Mass parts ratio with the PEG-400 is 0.1~3:0.1~1.Described One solvent, which is selected from, can dissolve the In (NO3)3, the PEG-400 organic solvent, such as the lower alcohol of C1~C6.This implementation In example, first solvent is ethyl alcohol.
In step s 2, the In (NO3)3With the Bi24O31Br10The mass parts ratio of nanometer sheet be 0.1~3:5~ 20.Additionally, it is preferred that, by Bi24O31Br10Nanometer sheet, which is added in the clear solution, to be impregnated 5~30 minutes, is heated at 80 DEG C 5~60 minutes.
In step s 2, the Bi24O31Br10Nanometer sheet can be obtained by following steps:
S21 prepares BiOBr particle and distributes it in ethylene glycol, and reflux and cleaning, drying at 90~120 DEG C; And
Step S21 intermediate product obtained is gradually heated up and is heated to 600 DEG C by S22, and the heat preservation predetermined time obtains Bi24O31Br10Nanometer sheet.
In the step s 21, the BiOBr particle can be obtained by following steps:
Bi salt is dissolved in ethylene glycol and obtains the first solution by S211;
KBr is dissolved in ethylene glycol and obtains the second solution by S212;
Second solution is added dropwise in first solution and obtains mixed liquor by S213;
S214, by the mixed liquor after 90 DEG C of stirred in water bath heats 5h;
S215, then it is the ethyl alcohol of 10:0.5~2 and ultrapure that product obtained in step S214, which is added dropwise to volume ratio, In the solution of water, white precipitate D is obtained, and clean;And
Product obtained in step S214 is dried at 80 DEG C and obtains BiOBr particle by S216.
The Bi salt is Bi (NO3)3.The molar ratio of the Bi salt and the KBr are 1:1.
In step S213, second solution is added dropwise in first solution by microsyringe and is mixed Close liquid.
In step S215, it is preferred that the volume ratio of ethyl alcohol and ultrapure water is 10:1.
Embodiment 1:
1) preparation of BiOBr
By the Bi (NO of 3mol3)3It is dissolved in 100mL ethylene glycol, stirs to obtain solution A;The KBr of 3mol is dissolved in 50mL second two Solution B is obtained in alcohol;Solution B is added dropwise in solution A with microsyringe, after stirring a hour, obtains mixed solution C, by mixed solution C in 90 DEG C of water-bath heating stirring 5h, then stir 0.5h at room temperature, then will be mixed with microsyringe It closes solution C to be added dropwise in the solution of ethyl alcohol and ultrapure water that 100~200mL volume ratio is 10:1, obtains white precipitate D, use Ultrapure water and dehydrated alcohol are respectively washed 3 times, are dried 2h at 80 DEG C, are obtained BiOBr.
2)Bi24O31Br10Preparation
By above-mentioned solution D ultrasonic disperse into the ethylene glycol of 200mL, cooling for reflux 2h at 95 DEG C, by solution D with ultrapure Water and washes of absolute alcohol are dried 1h at 80 DEG C, finally obtained white powder substance D are transferred in Muffle furnace, with 2 DEG C/heating rate of min is heated to 600 DEG C, 3h is kept, yellow Bi is obtained24O31Br10Nanometer sheet.
3)Bi24O31Br10/In2O3Preparation
By the In (NO of 0.01g3)3It is dissolved in 0.001g PEG-400 in the dehydrated alcohol of 0.3 μ L, after ultrasonic 10min To clear solution E;By the Bi of 0.1g24O31Br10Nanometer sheet is added in solution E, after impregnating 10min, is dried 0.5h at 80 DEG C, is obtained To mixture F, mixture F is placed in Muffle furnace, 400 DEG C of annealing 3h are cooled to room temperature to obtain buff Bi24O31Br10/In2O3 Heterojunction photocatalyst.
It can be seen that prepared Bi by Fig. 1-224O31Br10/In2O3In composite visible light catalyst, In2O3Uniform attachment In Bi24O31Br10In nanometer sheet, and the distribution map of element In demonstrates In2O3Well-proportioned distribution is in the composite.
Embodiment 2:
1) preparation of BiOBr
By the Bi (NO of 3.5mol3)3It is dissolved in 100mL ethylene glycol, stirs to obtain solution A;The KBr of 3.5mol is dissolved in 50mL Solution B is obtained in ethylene glycol;Solution B is added dropwise in solution A with microsyringe, after stirring a hour, is mixed Solution C, by mixed solution C in 90 DEG C of water-bath heating stirring 5h, then stir 0.5h at room temperature, then will with microsyringe Mixed solution C is added dropwise in the solution of the ethyl alcohol that 100~200mL volume ratio is 10:1 and ultrapure water, obtains white precipitate D, It is respectively washed 3 times with ultrapure water and dehydrated alcohol, dries 2h at 80 DEG C, obtain BiOBr.
2)Bi24O31Br10Preparation
By above-mentioned solution D ultrasonic disperse into the ethylene glycol of 200mL, cooling for reflux 2h at 100 DEG C is super using solution D Pure water and washes of absolute alcohol are dried 1h at 80 DEG C, finally obtained white powder substance D are transferred in Muffle furnace, with 2 DEG C/heating rate of min is heated to 600 DEG C, 3h is kept, yellow Bi is obtained24O31Br10Nanometer sheet.
3)Bi24O31Br10/In2O3Preparation
By the In (NO of 0.005g3)3It is dissolved in 0.005g PEG-400 in the dehydrated alcohol of 0.1 μ L, after ultrasonic 10min To clear solution E;By the Bi of 0.1g24O31Br10Nanometer sheet is added in solution E, after impregnating 10min, is dried 0.5h at 80 DEG C, is obtained To mixture F, mixture F is placed in Muffle furnace, 400 DEG C of annealing 3h are cooled to room temperature to obtain buff Bi24O31Br10/In2O3 Heterojunction photocatalyst.
Embodiment 3:
1) preparation of BiOBr
By the Bi (NO of 4mol3)3It is dissolved in 100mL ethylene glycol, stirs to obtain solution A;The KBr of 4mol is dissolved in 50mL second two Solution B is obtained in alcohol;Solution B is added dropwise in solution A with microsyringe, after stirring a hour, obtains mixed solution C, by mixed solution C in 90 DEG C of water-bath heating stirring 5h, then stir 0.5h at room temperature, then will be mixed with microsyringe It closes solution C to be added dropwise in the solution of ethyl alcohol and ultrapure water that 200mL volume ratio is 10:1, obtains white precipitate D, use is ultrapure Water and dehydrated alcohol are respectively washed 3 times, are dried 2h at 80 DEG C, are obtained BiOBr.
2)Bi24O31Br10Preparation
By above-mentioned solution D ultrasonic disperse into the ethylene glycol of 200mL, cooling for reflux 2h at 110 DEG C is super using solution D Pure water and washes of absolute alcohol are dried 1h at 80 DEG C, finally obtained white powder substance D are transferred in Muffle furnace, with 2 DEG C/heating rate of min is heated to 600 DEG C, 3h is kept, yellow Bi is obtained24O31Br10Nanometer sheet.
3)Bi24O31Br10/In2O3Preparation
By the In (NO of 0.001g3)3It is dissolved in 0.001g PEG-400 in the dehydrated alcohol of 0.1 μ L, after ultrasonic 10min To clear solution E;By the Bi of 0.1g24O31Br10Nanometer sheet is added in solution E, after impregnating 10min, is dried 0.5h at 80 DEG C, is obtained To mixture F, mixture F is placed in Muffle furnace, 400 DEG C of annealing 3h are cooled to room temperature to obtain buff Bi24O31Br10/In2O3 Heterojunction photocatalyst.
Embodiment 4:
1) preparation of BiOBr
By the Bi (NO of 4.5mol3)3It is dissolved in 100mL ethylene glycol, stirs to obtain solution A;The KBr of 45mol is dissolved in 50mL Solution B is obtained in ethylene glycol;Solution B is added dropwise in solution A with microsyringe, after stirring a hour, is mixed Solution C, by mixed solution C in 90 DEG C of water-bath heating stirring 5h, then stir 0.5h at room temperature, then will with microsyringe Mixed solution C is added dropwise in the solution of the ethyl alcohol that 200mL volume ratio is 10:1 and ultrapure water, obtains white precipitate D, with super Pure water and dehydrated alcohol are respectively washed 3 times, are dried 2h at 80 DEG C, are obtained BiOBr;
2)Bi24O31Br10Preparation
By above-mentioned solution D ultrasonic disperse into the ethylene glycol of 200mL, cooling for reflux 2h at 115 DEG C is super using solution D Pure water and washes of absolute alcohol are dried 1h at 80 DEG C, finally obtained white powder substance D are transferred in Muffle furnace, with 2 DEG C/heating rate of min is heated to 600 DEG C, 3h is kept, yellow Bi is obtained24O31Br10Nanometer sheet.
3)Bi24O31Br10/In2O3Preparation
By the In (NO of 0.015g3)3It is dissolved in 0.002g PEG-400 in the dehydrated alcohol of 0.2 μ L, after ultrasonic 10min To clear solution E;By the Bi of 0.1g24O31Br10Nanometer sheet is added in solution E, after impregnating 10min, is dried 0.5h at 80 DEG C, is obtained To mixture F, mixture F is placed in Muffle furnace, 410 DEG C of annealing 3h are cooled to room temperature to obtain buff Bi24O31Br10/In2O3 Heterojunction photocatalyst.
Embodiment 5:
1) preparation of BiOBr
By the Bi (NO of 5mol3)3It is dissolved in 100mL ethylene glycol, stirs to obtain solution A;The KBr of 5mol is dissolved in 50mL second two Solution B is obtained in alcohol;Solution B is added dropwise in solution A with microsyringe, after stirring a hour, obtains mixed solution C, by mixed solution C in 90 DEG C of water-bath heating stirring 5h, then stir 0.5h at room temperature, then will be mixed with microsyringe It closes solution C to be added dropwise in the solution of ethyl alcohol and ultrapure water that 200mL volume ratio is 10:1, obtains white precipitate D, use is ultrapure Water and dehydrated alcohol are respectively washed 3 times, are dried 2h at 80 DEG C, are obtained BiOBr;
2)Bi24O31Br10Preparation
By above-mentioned solution D ultrasonic disperse into the ethylene glycol of 200mL, cooling for reflux 2h at 120 DEG C is super using solution D Pure water and washes of absolute alcohol are dried 1h at 80 DEG C, finally obtained white powder substance D are transferred in Muffle furnace, with 2 DEG C/heating rate of min is heated to 600 DEG C, 3h is kept, yellow Bi is obtained24O31Br10Nanometer sheet.
3)Bi24O31Br10/In2O3Preparation
By the In (NO of 0.02g3)3It is dissolved in 0.004g PEG-400 in the dehydrated alcohol of 0.4 μ L, after ultrasonic 10min To clear solution E;By the Bi of 0.1g24O31Br10Nanometer sheet is added in solution E, after impregnating 10min, is dried 0.5h at 80 DEG C, is obtained To mixture F, mixture F is placed in Muffle furnace, 400 DEG C of annealing 3h are cooled to room temperature to obtain buff Bi24O31Br10/In2O3 Heterojunction photocatalyst.
Comparative example 1
1)Bi24O31Br10Preparation
By the Bi (NO of 5mol3)3It is dissolved in 100mL ethylene glycol, stirs to obtain solution A;The KBr of 5mol is dissolved in 50mL second two Solution B is obtained in alcohol;Solution B is added dropwise in solution A, after stirring a hour, mixed solution C is obtained, by mixed solution C Then the heating stirring 5h in 90 DEG C of water-bath stirs 0.5h at room temperature, then mixed solution C is added dropwise to 100~200mL body Product is than being to obtain white precipitate D in the ethyl alcohol of 10:1 and the solution of ultrapure water, obtain white powder substance.
White powder substance D ultrapure water obtained above and dehydrated alcohol are respectively washed 3 times, dried at 80 DEG C 2h is finally transferred in Muffle furnace, is heated to 600 DEG C with the heating rate of 2 DEG C/min, is kept 3h, obtain yellow Bi24O31Br10 Nanometer sheet;
2)In2O3Preparation
By the In (NO of 0.5mmol3)3It is dissolved in 20mL dehydrated alcohol, clear solution E is obtained after ultrasonic 0.5h;At 70 DEG C Lower heating solvent evaporated, the product being dried to obtain is placed in Muffle furnace, 400-500 DEG C of annealing 3h.It is cooled to room temperature, it is spare.
3)Bi24O31Br10/In2O3Preparation
By the In of 0.05g2O3With the Bi of 0.5g24O31Br10It is added in 5mL ethyl alcohol, after ultrasonic 1h, heats 2h at 70 DEG C, obtain To mixture F, anneal 3h at 400-500 DEG C, obtains Bi after being cooled to room temperature24O31Br10And In2O3Mix photochemical catalyst.
Embodiment 1 and comparative example are subjected to photocatalysis performance test, compare Bi as seen from Figure 324O31Br10With In2O3 Mix photochemical catalyst, Bi24O31Br10And In2O3Material, Bi24O31Br10/In2O3Composite material exhibits go out best photocatalytic Energy.
In addition, those skilled in the art can also do other variations in spirit of that invention, certainly, these are smart according to the present invention The variation that mind is done should all be included in the interior of scope of the present invention.

Claims (3)

1. a kind of Bi24O31Br10/In2O3Heterojunction photocatalyst, which is characterized in that including Bi24O31Br10Nanometer sheet and uniformly It is adsorbed in the Bi24O31Br10In in nanometer sheet2O3Nano particle, wherein the In2O3The partial size of nano particle be 50~ 200nm, the Bi24O31Br10The size of nanometer sheet is 500~0.1 μm, the Bi24O31Br10/In2O3Heterojunction photocatalyst It is prepared by following steps:
S1, by In (NO3)3It is dissolved in the first solvent with PEG-400, obtains clear solution;
S2 prepares Bi24O31Br10Nanometer sheet, and be added into the clear solution and impregnate, it heats and obtains at 70~100 DEG C Mixture;And
The mixture is annealed at 380-450 DEG C, is cooled to room temperature to obtain Bi by S324O31Br10/In2O3Heterojunction photocatalysis Agent;
Wherein, the preparation Bi24O31Br10The step of nanometer sheet includes:
BiOBr particle is distributed in ethylene glycol by S21, and is flowed back at 90~120 DEG C;And
Step S21 substance obtained is gradually heated up and is heated to 600 DEG C by S22, and the heat preservation predetermined time obtains Bi24O31Br10It receives Rice piece;
Wherein, the BiOBr particle-making step includes:
Bi salt is dissolved in ethylene glycol and obtains the first solution by S211;
KBr is dissolved in ethylene glycol and obtains the second solution by S212;
Second solution is added dropwise in first solution and obtains mixed liquor by S213;
S214, by the mixed liquor after 90 DEG C of stirred in water bath heats 5h;
S215, then product obtained in step S214 is added dropwise to the ethyl alcohol and ultrapure water that volume ratio is 10:0.5~2 In solution, white precipitate D is obtained, and clean;And
Product obtained in step S214 is dried at 80 DEG C and obtains BiOBr particle by S216.
2. Bi as described in claim 124O31Br10/In2O3Heterojunction photocatalyst, it is characterised in that: the In2O3Nanometer The partial size of grain is 80~120nm.
3. Bi as claimed in claim 224O31Br10/In2O3Heterojunction photocatalyst, it is characterised in that: the In2O3Nanometer The partial size of grain is 100nm.
CN201710055515.5A 2017-01-25 2017-01-25 A kind of Bi24O31Br10/In2O3Heterojunction photocatalyst Expired - Fee Related CN106799247B (en)

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CN110918106A (en) * 2019-11-22 2020-03-27 西北矿冶研究院 BiOBr/ZnO heterojunction type composite photocatalyst and preparation method thereof

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