| Method for preparing a gel containing nanometer titanium dioxide powders for visible light photocatalysis -> Monitor Keywords |
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Method for preparing a gel containing nanometer titanium dioxide powders for visible light photocatalysisRelated Patent Categories: Chemistry Of Inorganic Compounds, Oxygen Or Compound Thereof, Metal Containing, Group Ivb Metal (ti, Zr, Or Hf), Titanium DioxideMethod for preparing a gel containing nanometer titanium dioxide powders for visible light photocatalysis description/claimsThe Patent Description & Claims data below is from USPTO Patent Application 20060177371, Method for preparing a gel containing nanometer titanium dioxide powders for visible light photocatalysis. Brief Patent Description - Full Patent Description - Patent Application Claims
BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention relates to a method for preparing a gel containing nanometer titanium dioxide powders, and more particularly to a gel containing nanometer titanium dioxide powder in sizes ranging from 2 to 50 nm and having photocatalystic characteristic and self-cleaning efficiency in visible light. [0003] 2. Description of Related Art [0004] Since 1970, most studies of titanium dioxide for manufacturing semiconductor have been subjected to photochemical reactions and semiconducting reactions on the present titanium dioxide particles. In these studies, crystalline configuration and grain sizes certainly affect the photochemical and semiconducting reactions. Preferably, anatase or anatase/rutile in the size of 30 nm is the optimal material. However, no study refers to the preparation and actual application to the titanium dioxide. Since 1990, titanium dioxide has been found to have great application in environmental cleaning and has actually been used since 1997. However, the studies still focus on the application but not the preparation of the titanium dioxide. [0005] Conventional preparations of the titanium dioxide particles are divided into two types and are illustrated as follows: [0006] 1. Grinding pulverization: the titanium dioxide particles made by grinding are uneven in particle sizes as of 10 to 500 nm and have non-united crystalline configurations. Therefore, the titanium dioxide particles do not have photocatalytic characteristic and self-cleaning efficiency and are only applied in paints, cosmetics or correction fluids. Although the grinding method is improved by applying ultrasonic technology or adding acid solutions for chemical grinding to make the titanium dioxide particles even, the crystalline configuration of the titanium dioxide particles does not improve much. [0007] 2. Chemical synthesis: the chemical synthesis comprises three methods such as chemical vapor deposition (CVD) synthesis, organic solvent synthesis, and aqua synthesis. The chemical vapor deposition (CVD) method generates stable and highly pure titanium dioxide but is expensive in manufacturing. The organic solvent synthesis is to use titanium oxyalkyl (Ti(OR).sub.4) to synthesize titanium dioxide particles, wherein the titanium oxyalkyl is sopped into an organic solvent such as glycol and heated to obtain titanium dioxide. However, the titanium oxyalkyl is expensive and operation must be carried out at a high temperature and a high pressure. Thus, the manufacturing cost of the organic solvent synthesis is not economic for manufacturers. [0008] With regard to the aqua synthesis, titanium chloride (TiCl.sub.4) solution is mixed with a binding agent or an acid solution to heat to generate a gel containing titanium dioxide. However, chlorine ions are also generated which make the gel unstable and easily decomposed. Additionally, titanium dioxide made by the chemical synthesis is only efficient in ultraviolet light so that application of the gel containing titanium dioxide is limited. [0009] According to the above description, the titanium dioxide is only used with ultraviolet light and that limits the application of the titanium dioxide. Therefore, the present invention has arisen to provide a method for preparing a gel containing nanometer titanium dioxide particles for visible light to improve the usage of the titanium dioxide. SUMMARY OF THE INVENTION [0010] The main objective of the present invention is to provide a method for preparing a gel containing nanometer titanium dioxide, wherein the gel has photochemical and self-cleaning efficiency and is effective in visible light. [0011] Further benefits and advantages of the present invention will become apparent after a careful reading of the detailed description. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT [0012] A method for preparing a gel containing nanometer titanium dioxide particles, wherein the gel made by this method has photocatalystic efficiency in visible light. The method in the present invention uses titanium hydroxide to manufacture titanium dioxide particles and particularly comprises the steps of an inverting process and an aging process to titanium hydroxide. [0013] In the inverting process, clean (washed) titanium hydroxide (Ti(OH).sub.2, Ti(OH).sub.4) is added into deionized water and mixed with an oxidant, an acid or both to compose a solution to transform titanium hydroxide into titanium dioxide, wherein the acid is selectively an organic acid or an inorganic acid. Then, at least one additive, at least one improving agent, and optionally at least one surfactant are mixed with the solution. The oxidant is selected from the group comprising perchloric acid, periodic acid, potassium permanganate, sodium permanganate, nitric acid etc., and has a quantity of 1 to 200 g/L. The inorganic acid is selected from the group comprising hydriodic acid, hydrobromic acid, hydrochloric acid, sulfuric acid, nitric acid, phosphoric acid, periodic acid etc., and has a quantity of 0.1 to 120 ml/L. The organic acid is selected from the group comprising formic acid, acetic acid, oxalic acid, picric acid, citric acid, tartaric acid etc., and has a quantity of 0.1 to 100 ml/L. The oxidant and the acid can be alternatively or both added into the titanium hydroxide solution, which depends on the usage of the gel. If the gel is used for spraying, the oxidant is preferably added into the titanium hydroxide solution. If the gel is used for laminating or is highly concentrated, the acid or both the acid and the oxidant are preferably added to the titanium hydroxide solution. Determining the species of the acid is dependent on substrate, on which the gel is applied. [0014] The improving agent has a quantity of 0.05 to 75 nm/L and is selected from the group comprising silicate, poly-aluminum chloride (PAC), aluminum oxide, aluminum sulfate, silane etc. By applying the improving agent, the titanium dioxide particles are modified to have more micro-rough surface to increase adhesive and less surface electric charges to reduce repulsion force. The optional surfactant has molecular weight of 200 to 1000 and a quantity of 10 to 5000 ppm and is selected from the group comprising polyethylene glycol (PEG), polypropylene glycol (PPG), nonyl-phenol (NP), natural alcohol etc. [0015] Determining the improving agent is dependent on the material of the substrate. When the substrate is made of natural material such as wood, paper, or fabric, the improving agent is preferably silicate, poly-aluminum chloride, aluminum oxide, and aluminum sulfate. When the substrate is made of inorganic material such as glass, metal, stone, or ceramics, the improving agent is preferably silicate. When the substrate is made of artificial fiber and macromolecule polymers, the improving agent is preferably silicate and silane. [0016] The additive is selected from the group comprising oxide, hydroxide, nitrate, carbonate, phosphate, sulfate and chloride, all containing metal compounds of iron, copper, zinc, nickel, vanadium, tin, gold, silver, platinum or palladium. A quantity of the additive is 1 mg/L to 5 g/L. [0017] When the titanium hydroxide is inverted by adding the oxidant or further the acid and the optional improving agent to compose the solution, the temperature of the inverting process is kept at 10 to 95.degree. C. dependent on species of the additive, for at least 10 min. The stirring rate of the mixture is at 30 to 300 rpm. [0018] After inverting, the temperature of the mixture is increased to 50 to 95.degree. C. and stirred at 30 to 300 rpm for 4 to 72 hours to age the mixture. After aging, the mixture becomes gel and is then filtered to separate the gel and residual solution to obtain the gel only. Thereby, the gel containing nanometer titanium dioxide particles is obtained. [0019] To operationally verify the preparation of the gel containing nanometer titanium dioxide particles in accordance with the present invention, three examples are illustrated as follows: EXAMPLE 1 [0020] In a 20 L reacting tank, 10 L of deionized water was added into the reacting tank and stirred at 300 rpm to mix with 500 g of titanium tetrachloride (TiCl.sub.4), wherein titanium tetrachloride was added into the reacting tank at 4 mg/min by a quantitative pump and temperature of the reacting tank was kept at 5 to 10.degree. C. After adding all titanium tetrachloride into the reacting tank, the solution of the titanium tetrachloride was still stirred for 2 hours until the solution became clear. Then, 20% of ammonia was injected into the solution at 10 ml/min to increase the pH value of the solution and the stirring rate was increased to 600 rpm. When the pH value of the solution was increased to 4.0, the injecting rate of the ammonia was adjusted to 2 to 4 ml/min. The injection of the ammonia was stopped when the pH value reached 7.5 to 8.0. Wherein, the titanium tetrachloride mixed with ammonia was transformed into titanium(IV) hydroxide (Ti(OH).sub.4) to deposit in the solution. After filtering the solution, titanium(IV) hydroxide in the form of white solid was obtained. The solid of titanium(IV) hydroxide was washed in a 200 L washing tank containing 100 L of soft water or piped water and stirred at 600 rpm for 2 hours until the solid of titanium(IV) hydroxide was evenly distributed in the washing tank. Preferably, the solid of titanium(IV) hydroxide was washed three times and then filtered to separate from the water. The filtered titanium hydroxide solid was transported into an inverting and aging tank. 20 L of deionized water was previously poured into the inverting and aging tank, and the titanium hydroxide solid with the water was stirred at 300 rpm for 1 hour to make the titanium hydroxide solid evenly distributed. 50 ml of perchloric acid was added into the inverting and aging tank and stirred for 30 min at room temperature. Then, 80 ml of 25% (W/W) silicate and 1 g of silver carbonate were added into the inverting and aging tank and stirred for 30 min at 300 rpm. Lastly, the temperature of the inverting and aging tank was increased to 80 to 90.degree. C. to be continuously stirred for 6 hours and then cooled, whereafter the pH value was adjusted to 4 to 9 to obtain the gel containing nanometer titanium dioxide particles. Continue reading about Method for preparing a gel containing nanometer titanium dioxide powders for visible light photocatalysis... 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