High-efficiency photocatalyst - preparation method of nano titanium dioxide hydrocolloid
A nano-titanium dioxide, water colloid technology, applied in titanium dioxide, chemical instruments and methods, titanium oxide/hydroxide and other directions, can solve the problems of high raw material cost, environmental pollution, etc., and achieves reduced raw material cost, good particle uniformity, coating Good coating performance and film-forming performance
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Embodiment 1
[0030] Embodiment 1: a kind of preparation method of efficient photocatalyst-nano titanium dioxide hydrocolloid, comprises the following steps:
[0031] Step 1. Put 5 grams of metal titanium into a 500 ml glass beaker, add 85 ml of hydrogen peroxide aqueous solution, the molar ratio of metal titanium to hydrogen peroxide is 1:8, and the metal titanium is granular sponge titanium;
[0032] Step 2, place the glass beaker in an ice-water bath, the temperature of the ice-water bath is controlled at about 10°C, and stir the mixture at a medium speed to form an intermediate reactant;
[0033] Step 3: Pour 75ml of ammonia water into a 500ml flask with a branch pipe and a piston, place the flask in a temperature-controlled hot water bath at about 60°C, heat to form ammonia vapor, and the ammonia vapor enters the intermediate reaction of medium-speed stirring through the branch pipe In the material, when the pH value of the intermediate reactant reaches about 9, close the piston on the...
Embodiment 2
[0045] Embodiment 2: a kind of preparation method of efficient photocatalyst-nano titanium dioxide hydrocolloid, comprises the following steps:
[0046] Step 1. Put 5 grams of metallic titanium into a glass beaker, add 107 mL of hydrogen peroxide aqueous solution to form a mixed solution, the molar ratio of metallic titanium to hydrogen peroxide is 1:10, and the metallic titanium is granular sponge titanium;
[0047] Step 2, place the glass beaker in an ice-water bath, the temperature of the ice-water bath is controlled between 12°C, and stir the mixed liquid at a medium speed to form an intermediate reactant;
[0048] Step 3: Pour 91mL of ammonia water into a flask with a branch pipe and a piston, place the flask in a hot water bath, control the temperature of the water bath at about 60°C, and heat to volatilize the ammonia to form ammonia vapor, which enters the intermediate reaction through the branch pipe In the product, adjust the pH value of the intermediate reactant to ...
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