CN1702194A - Preparation method for discoloration tolerant antibacterial material of silver-loaded titanium phosphate - Google Patents
Preparation method for discoloration tolerant antibacterial material of silver-loaded titanium phosphate Download PDFInfo
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- CN1702194A CN1702194A CN 200510084229 CN200510084229A CN1702194A CN 1702194 A CN1702194 A CN 1702194A CN 200510084229 CN200510084229 CN 200510084229 CN 200510084229 A CN200510084229 A CN 200510084229A CN 1702194 A CN1702194 A CN 1702194A
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Abstract
The invention belongs to the field of antimicrobial material. It aims at improving the liable color change of silver-carried phosphoric titanate. It contains the following steps: using titanic sulfate or titanoxy sulfate as raw material, and mixing urea as adjuvant to prepare solution, the mass ratio of titanic sulfate to urea being 40: 1- 40: 5, titanoxy sulfate to urea being 30: 1- 30: 5; adding block or powder of phosphoric titanate into the solution, heating by water-bath of temperature of 50-90 Deg. C and stirring for 3-6 hours to deposit titanium-contained substance film on the surface of phosphoric titanate; annealing in the air and the temperature of 500-700 Deg. C by 1-4 hours; exchanging silver ion in silver nitrate water solution of a mass ratio concentration of 1-20% in 20-50 Deg. C by 0.5-4 hours to prepare silver-carried phosphoric titanate material, carrying silver mass being 1-10% by mass, annealing the silver-carried phosphoric titanate complex in 600-1000 Deg. C by 0.5-6 hours. The whiteness can amount to over 89%, antibiosis ratio to 99%, it keeping the fine exterior of material, applying extensively to preparing antimicrobial material in plastic, coating, timber and so on.
Description
Technical field
The preparation method of silver-colored phosphoric acid titanium salt anti-biotic material is carried in a kind of anti-variable color, belongs to the anti-biotic material technical field.
Background technology
Anti-biotic material is the type material that is rapidly developed during the nearly last ten years, mainly is made up of solid support material and antimicrobial component.Wherein solid support material plays a part to disperse antimicrobial component, and antimicrobial component then is dispersed in and plays anti-microbial effect in the carrier.Silver is to use maximum a kind of antimicrobial components in the anti-biotic material because anti-microbial property is good, often is attached in the various materials with ionic means, makes the silver-containing antibacterial material.But because the chemical property of silver ions is very active, in use anti-biotic material is often because silver ions is seen photoreduction and variable color.Thereby the anti-discoloration problem of Ag-carried antibacterial material is the very active problem of an antibiotic area research.The titanium phosphate salt material has good prospect owing to have good Ag ion exchange performance in the exploitation of anti-biotic material.But because its variable color has in use influenced its practical effect.
Till now, the technology that improves Ag-carried antibacterial material discoloration-resistant has been arranged.People such as the Cui Fu of Tsing-Hua University vegetarian have applied for fluorine doped hydroxyapatite patent (number of patent application 02129370.8), according to patent documentation, this antiseptic-germicide has discoloration-resistant performance, the sodium zirconium phosphate antiseptic-germicide has been studied by Xi'an Convrl Rntibiotic Science ﹠ Technique Co., Ltd., and it is reported also has good discoloration-resistant performance.In addition, also adopt discoloration inhibitor to solve the discoloration-resistant problem of carrying silver antimicrobials both at home and abroad.The phosphoric acid titanium salt because have good ion-exchange performance, chemical stability is good and price is cheap than sodium zirconium phosphate, thereby has good market outlook.Japan Ah portion is very great once to do the anti-microbial property research that the phosphoric acid titanium salt carries silver, but the phosphoric acid titanium salt carries the variable color easily under illumination of silver back, and the present invention carries the discoloration-resistant performance of high silver supported phosphoric acid titanium salt by to phosphoric acid titanium salt surface tunicle.Utilize titanium sulfate or titanyl sulfate lining titanium dioxide film to obtain a lot of research, the photocatalysis performance of this film is had a lot of reports.The shading performance that titanium dioxide is good has then obtained application in each side such as sunscreens.
Summary of the invention
Problem to be solved by this invention provides the preparation method that silver-colored phosphoric acid titanium salt anti-biotic material is carried in a kind of anti-variable color, both can be used for carrying the discoloration-resistant performance of high silver supported titanium phosphate salt block anti-biotic material, also can be used for carrying the discoloration-resistant of high silver supported phosphoric acid titanium salt powder anti-biotic material.
The invention is characterized in that with titanium sulfate or titanyl sulfate be main raw material, with urea is auxiliary agent, at titanium phosphate salt material surface deposition hydrated titanium dioxide, and the titanium phosphate material that surperficial connate water closes titanium dioxide heat-treated make phosphoric acid titanium salt surface form the titanium dioxide thin layer; By carrying out ion-exchange with silver ionized water solution the phosphoric acid titanium salt is carried the silver processing then, and heat-treat the binding ability of strengthening phosphoric acid titanium salt and silver ions to carrying silver-colored phosphoric acid titanium salt, manufacturing is carried discoloration-resistant and is carried silver-colored phosphoric acid titanium salt.It comprises the steps:
1) be raw material with titanium sulfate or titanyl sulfate, adding urea is the auxiliary agent wiring solution-forming, and the mass ratio of titanium sulfate and urea is 40: 1-40: 5, and the mass ratio of titanyl sulfate and urea is 30: 1-30: 5; Titanium phosphate salt block or powder are added this solution, place 50 ℃ of-90 ℃ of heating in water bath and stir 3h-6h, so that phosphoric acid titanium salt surface deposition titaniferous materials film;
2) above-mentioned treated phosphoric acid titanium salt is carried out 1h-4h thermal treatment under air atmosphere, 500 ℃-700 ℃, form the phosphoric acid titanium salt complex body of surface-coated titanium dioxide thin layer;
3) under 20 ℃-50 ℃, mass percent concentration is in the silver nitrate aqueous solution of 1%-20%, the phosphoric acid titanium salt complex body of above-mentioned surface-coated titanium dioxide thin layer is carried out the Ag ion exchange of 0.5h-4h, and a silver-colored titanium phosphate salt material is carried in preparation, and the silver carrying amount mass percent is 1%-10%;
4) the phosphoric acid titanium salt complex body that carries behind the silver is carried out 600 ℃-1000 ℃, the bonding force of high silver supported phosphoric acid titanium salt and silver ions is put forward in 0.5h-6h thermal treatment, further carries the discoloration-resistant performance of high silver supported tunicle phosphoric acid titanium salt.
Utilizing this method that titanium phosphate salt block material is carried out tunicle handles, improved the discoloration-resistant performance of titanium phosphate salt block material, Fig. 1 for tunicle in the example 1 carry silver-colored titanium phosphate sodium block and not tunicle carry outward appearance contrast after silver-colored titanium phosphate sodium block was exposed to the sun 48 hours in the sun (block in example 2 and the example 3 and not the outward appearance of tunicle phosphoric acid titanium salt contrast similarly, no longer list at this).Carry silver-colored titanium phosphate salt block behind the tunicle and under the sun is exposed to the sun, keep white.Carry silver bullion body phosphate material and can be used as anti-biotic material and directly be used in occasions such as water surrounding is antibiotic, the discoloration-resistant that carries silver-colored titanium phosphate salt block has improved the grade and the use value of anti-biotic material, is expected to have higher the market degree of recognition and market capacity.Utilize this method to phosphoric acid titanium salt powder lining titanium dioxide thin layer, improved the discoloration-resistant performance of phosphoric acid titanium salt powder.Fig. 2 for tunicle in the example 4 carry silver-colored titanium phosphate calcium powder body and not tunicle carry outward appearance contrast after silver-colored titanium phosphate calcium powder body was exposed to the sun 48 hours in the sun (block in example 5 and the example 6 and not the outward appearance of tunicle phosphoric acid titanium salt contrast similarly, no longer list at this).Can see that a titanium phosphate calcium powder body that carries silver behind the tunicle keeps white, the tunicle phosphoric acid titanium salt obvious grizzle then that do not carry silver proves that the discoloration-resistant performance of powder is improved behind the tunicle.Keep the silver-colored phosphoric acid titanium salt powder that carries of white to can be used as carrying silver antimicrobials and adds in the various materials, can keep the material good surface appearance and give the material anti-microbial property, can be widely used in plastics, coating, timber etc., make anti-biotic material.Fig. 3 is the x-ray diffraction pattern of the powder that titanium phosphate sodium powder obtains after handling through above-mentioned steps in the example 4, and the result shows have titanium dioxide to exist mutually in the treated powder really.Proof has improved the discoloration-resistant performance of Ag-carried antibacterial material because the titanium dioxide of powder surface exists.
Description of drawings
Fig. 1: year silver-colored titanium phosphate sodium block after the lining and year silver-colored titanium phosphate sodium block that is covered shine the variable color situation behind the 48h in the sun.1 is the silver-colored titanium phosphate sodium that carries after the lining among the figure, and 2 is the silver-colored titanium phosphate sodium that carries after the not lining.
Fig. 2: year silver-colored phosphoric acid titanium salt after the lining and year silver-colored phosphoric acid titanium salt powder that is covered shine the variable color situation after 2 days in the sun.1 is the silver-colored titanium phosphate sodium powder that carries after the lining among the figure, and 2 is the silver-colored titanium phosphate sodium powder that carries after the not lining.
Fig. 3: the x-ray diffraction pattern of silver-colored titanium phosphate sodium powder is carried in carrying silver-colored titanium phosphate sodium and not being covered after the lining.
Embodiment
Example 1,2.5 gram titanium sulfates and 0.061 gram urea are soluble in water adds 10 gram titanium phosphate sodium blocks, puts into 50 ℃ of water-baths, stirred solution 6h.With after the titanium phosphate sodium block behind the plated film oven dry, heat tracing 1h under 600 ℃, air atmosphere is used under 20 ℃ then, and the silver nitrate solution with 1.0% carries out Ag ion exchange, exchanges the 0.5h silver carrying amount and reaches 1%.With the titanium phosphate sodium block heat tracing 6h under 600 ℃, air atmosphere that carries behind the silver.With this block 48h that under the sunlight direct projection, is exposed to the sun, to measure with SBD-1 type numeral whiteness instrument, the whiteness of this block is 89%, tests the anti-microbial property of this titanium phosphate sodium block with succusion, its antibiotic rate can arrive 99%.
Example 2,1.83 gram titanyl sulfates and 0.061 gram urea are soluble in water adds 10 gram titanium phosphate calcium blocks, is put in 70 ℃ of water-baths, stirred solution 3h.With after the titanium phosphate calcium block behind the plated film oven dry, heat tracing 4h under 500 ℃, air atmosphere is used under 50 ℃ then, and the silver nitrate solution with 4.0% carries out Ag ion exchange, exchange 0.5h after silver carrying amount reach 3%.With the titanium phosphate calcium block heat tracing 0.5h under 800 ℃, air atmosphere that carries behind the silver.With this block 48h that under the sunlight direct projection, is exposed to the sun, to measure with quadrat method according to example 1, the whiteness of block is 90%, tests the anti-microbial property of this titanium phosphate calcium block with succusion, its antibiotic rate can arrive 99%.
Example 3, with 2.5 gram titanium sulfates and 0.305 gram urea mixing soluble in water, add 10 gram titanium phosphate lithium blocks, be put in 90 ℃ of water-baths, stirred solution 6h.With after the titanium phosphate lithium block behind the plated film oven dry, heat tracing 1h under 700 ℃, air atmosphere is used under 30 ℃ then, and the silver nitrate solution with 20% carries out Ag ion exchange, exchanges the 0.5h silver carrying amount and reaches 10%.With the titanium phosphate lithium block heat tracing 6h under 1000 ℃, air atmosphere that carries behind the silver.With this block 48h that under the sunlight direct projection, is exposed to the sun, to measure with quadrat method according to example 1, the whiteness of block is 90%, tests the anti-microbial property of this titanium phosphate lithium block with succusion, its antibiotic rate can arrive 99%.
Example 4, with 2.5 gram titanium sulfates and 0.061 gram urea mixing soluble in water, add the titanium phosphate sodium powder of 10 gram particles footpath, 50 ℃ of stirred in water bath 5 hours less than 0.3mm.Heat tracing 1h under 650 ℃, air atmosphere is used under 50 ℃ then, and the silver nitrate solution with 11% carries out Ag ion exchange, and exchange 1h silver carrying amount reaches 5%.With the titanium phosphate sodium block heat tracing 0.5h under 1000 ℃, air atmosphere that carries behind the silver.With this powder 48h that under the sunlight direct projection, is exposed to the sun, measure with SBD-1 type numeral whiteness instrument, the whiteness of this powder is 91%, tests the anti-microbial property of this titanium phosphate sodium powder with the minimum inhibition concentration method, recording its minimum inhibition concentration is 400 μ g/ml, and its antibiotic rate can arrive 99%.Mix 3% this powder in acrylic coating, do not find coating color-changing, the sterilizing rate of antibiotic paint is 99%.
Example 5, with 1.83 gram titanyl sulfates and 0.305 gram urea mixing soluble in water, add the titanium phosphate sodium powder of 10 gram particles footpath, 50 ℃ of stirred in water bath 4 hours less than 0.07mm.With after the titanium phosphate sodium powder behind the plated film oven dry, heat tracing 1h under 650 ℃, air atmosphere is used under 40 ℃ then, and the silver nitrate solution with 12% carries out Ag ion exchange, exchanges the 3h silver carrying amount and reaches 6%.With the titanium phosphate sodium block heat tracing 0.5h under 800 ℃, air atmosphere that carries behind the silver.With this powder 48h that under the sunlight direct projection, is exposed to the sun, to measure with SBD-1 type numeral whiteness instrument, the whiteness of this powder is 90%,, test the anti-microbial property of this titanium phosphate sodium powder with the minimum inhibition concentration method, recording its minimum inhibition concentration is 200 μ g/ml.Mix 3% this powder in polyvinyl resin, do not find the plastics variable color, the sterilizing rate of antibiotic plastic is 99%.
Example 6, with 2.5 gram titanium sulfates and 0.061 gram urea mixing soluble in water, adding 10 gram median sizes was the titanium phosphate sodium powder of 1.2 μ m, 50 ℃ of stirred in water bath 6 hours.Heat tracing 1h under 650 ℃, air atmosphere, under 50 ℃, the silver nitrate solution with 1% carries out Ag ion exchange then, exchange 0.5h, silver carrying amount reaches 5%.With the titanium phosphate sodium block heat tracing 0.5h under 600 ℃, air atmosphere that carries behind the silver.With this powder 48h that under the sunlight direct projection, is exposed to the sun, to measure with SBD-1 type numeral whiteness instrument, the whiteness of this powder is 90%,, test the anti-microbial property of this titanium phosphate sodium powder with the minimum inhibition concentration method, recording its minimum inhibition concentration is 100 μ g/ml.Mix 3% this powder in acrylic resin, do not find the plastics variable color, the sterilizing rate of antibiotic plastic is 99%.
Claims (1)
1, a kind of preparation method of discoloration tolerant antibacterial material of silver-loaded titanium phosphate is characterized in that, comprises the steps:
1) be raw material with titanium sulfate or titanyl sulfate, adding urea is the auxiliary agent wiring solution-forming, and the mass ratio of titanium sulfate and urea is 40: 1-40: 5, and the mass ratio of titanyl sulfate and urea is 30: 1-30: 5; Titanium phosphate salt block or powder are added this solution, place 50 ℃ of-90 ℃ of heating in water bath and stir 3h-6h, so that phosphoric acid titanium salt surface deposition titaniferous materials film;
2) above-mentioned treated phosphoric acid titanium salt is carried out 1h-4h thermal treatment under air atmosphere, 500 ℃-700 ℃, form the phosphoric acid titanium salt complex body of surface-coated titanium dioxide thin layer;
3) under 20 ℃-50 ℃, mass percent concentration is in the silver nitrate aqueous solution of 1%-20%, the phosphoric acid titanium salt complex body of above-mentioned surface-coated titanium dioxide thin layer is carried out the Ag ion exchange of 0.5h-4h, and a silver-colored titanium phosphate salt material is carried in preparation, and the silver carrying amount mass percent is 1%-10%;
4) the phosphoric acid titanium salt complex body behind year silver is carried out 600 ℃-1000 ℃, 0.5h-6h thermal treatment obtains discoloration tolerant antibacterial material of silver-loaded titanium phosphate.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102108485A (en) * | 2011-01-28 | 2011-06-29 | 厦门建霖工业有限公司 | Method for preparing antibacterial coating on surface of plastic |
CN107384137A (en) * | 2017-08-03 | 2017-11-24 | 合肥隆延科技有限公司 | UV cure wood coatings |
CN110029493A (en) * | 2019-05-14 | 2019-07-19 | 晋大纳米科技(厦门)有限公司 | A kind of finishing technique of silver ion antibacterial towel |
CN111994888A (en) * | 2017-03-30 | 2020-11-27 | 福吉米株式会社 | Titanium phosphate powder, method for producing same, and white pigment for cosmetics |
CN112938925A (en) * | 2021-01-28 | 2021-06-11 | 苏州安特倍可新材料有限公司 | Novel antibacterial silver compound titanium-oxygen-phosphate silver and preparation method thereof |
Family Cites Families (4)
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JPH03190806A (en) * | 1989-12-21 | 1991-08-20 | Rasa Kogyo Kk | Antibacterial agent having deodorant property |
JP3525523B2 (en) * | 1994-12-07 | 2004-05-10 | ラサ工業株式会社 | Antibacterial agent and method for producing the same |
JP3190806B2 (en) * | 1995-07-25 | 2001-07-23 | ダイハツ工業株式会社 | Structure of vehicle fuel tank |
CN1267006C (en) * | 2002-09-06 | 2006-08-02 | 清华大学 | Silver-carried fluor apatite antimicrobials and its preparation method |
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- 2005-07-18 CN CNB2005100842299A patent/CN1333107C/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102108485A (en) * | 2011-01-28 | 2011-06-29 | 厦门建霖工业有限公司 | Method for preparing antibacterial coating on surface of plastic |
CN111994888A (en) * | 2017-03-30 | 2020-11-27 | 福吉米株式会社 | Titanium phosphate powder, method for producing same, and white pigment for cosmetics |
CN111994888B (en) * | 2017-03-30 | 2023-11-17 | 福吉米株式会社 | Titanium phosphate powder, process for producing the same, and white pigment for cosmetics |
CN107384137A (en) * | 2017-08-03 | 2017-11-24 | 合肥隆延科技有限公司 | UV cure wood coatings |
CN110029493A (en) * | 2019-05-14 | 2019-07-19 | 晋大纳米科技(厦门)有限公司 | A kind of finishing technique of silver ion antibacterial towel |
CN112938925A (en) * | 2021-01-28 | 2021-06-11 | 苏州安特倍可新材料有限公司 | Novel antibacterial silver compound titanium-oxygen-phosphate silver and preparation method thereof |
CN112938925B (en) * | 2021-01-28 | 2023-09-19 | 苏州安特倍可新材料有限公司 | Novel antibacterial silver compound titanium oxide silver phosphate and preparation method thereof |
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