| 摘要 |
The present invention discloses a selenium-doped nano-silica sol capable of both inhibiting the absorption and accumulation of heavy metal in rice and producing a selenium-rich rice, and a preparation method thereof. The selenium-doped nano-silica sol of the present invention is prepared mainly by using a nano-silica sol as a carrier, sodium selenite and the like as a raw material, vitamin C and the like as a reducing agent, and polyvinylpyrrolidone and the like as an emulsifier, and doping and dispersing selenium in a specific ratio in a silica sol so as to form a selenium-doped nano-silica sol with a special structure and function. The selenium-doped nano-silica sol prepared according to the invention has high stability and high concentration, and is uniform and transparent, and has a silica content of up to 20% or more, a selenium content of up to 1% or more, and low impurity content. The selenium-doped nano-silica sol of the present invention has a pH close to neutral, wherein selenium, in a nano particle form, is dispersed in colloidal silica, with a particle size of less than 50 nm; and after the foliar application, it can significantly promote the growth of crops, inhibit the absorption and accumulation of arsenic and cadmium in crops, and increase the selenium content in crops, and has no toxic and side effects on crops, and is safe to application. |
| 主权项 |
1. A method for preparing a selenium-doped nano-silica sol capable of both inhibiting the absorption and accumulation of heavy metal in rice and producing a selenium-rich rice, characterized by comprising the steps of:
(1) preparation of a metal silicate solution: a metallic silicon powder or a metal silicate is added with stirring to an alkaline solution with a concentration of 0.1˜5M, so as to prepare a metal silicate solution, with a concentration of the metallic silicon powder or the metal silicate of 5% by weight to saturation, pH 10˜13; wherein the metal silicate is Na2SiO3, K2SiO3 or Li2SiO3; (2) preparation of an acidic silica sol precursor: the metal silicate solution is subjected to a cation exchange treatment, the collected solution is controlled at a pH of 1˜4, the collected solution is heated to 35-90° C., then carried out standing, cooling, and aging, so as to obtain an acidic silica sol precursor; (3) preparation of an acidic selenium-doped solution: a selenium-containing compound is dissolved in a dilute acid solution with stirring, so as to prepare an acidic selenium-doped solution with a selenium content of 0.1˜10% by mass, and the acidic selenium-doped solution is controlled at a pH of 1˜4; wherein the selenium-containing compound is selenious acid, sodium selenite, potassium selenite or sodium hydrogen selenite; (4) preparation of a selenium-doped emulsion: an emulsifier is added with stirring to the acidic selenium-doped solution in step (3), the final mass percentage of the emulsifier is controlled at 0.05˜5%, so as to obtain a selenium-doped emulsion; wherein the emulsifier is polyvinylpyrrolidone, polyvinyl alcohol, Tween or Span series; (5) preparation of a selenium-doped acidic silica sol precursor: the selenium-doped emulsion in step (4) is added with stirring to the acidic silica sol precursor in step (2), so as to obtain a selenium-doped acidic silica sol precursor, wherein the selenium-doped acidic silica sol precursor has a mass percentage ratio between silicon and selenium of 3˜200:1; (6) the selenium-doped acidic silica sol precursor in step (5) is added to an alkaline solution formulated with a basic catalyst at 30° C.˜90° C., the addition is not stopped until the alkaline solution arrives at a pH value of 7˜9, stirring and reaction are continued for 30˜90 min, so as to obtain a selenium-doped silica sol precursor; wherein the basic catalyst is sodium hydroxide, potassium hydroxide, urea, aqueous ammonia, or sodium silicate solution; (7) the selenium-doped silica sol precursor in step (6) is added to a reducing agent solution at 30° C.˜90° C., until the pale red color of the sol is no longer deepened, after selenium is sufficiently reduced, the sol is continued to stir and react for 2 hours or more time, and then dialyzed twice or more times, so as to obtain a selenium-doped nano-silica sol; wherein the reducing agent is ascorbic acid, glutathione, or reducing sugars. |
