A kind of conductive lithium antimonate ion adsorbent and preparation method thereof
An ion adsorbent, lithium antimonate technology, applied in the direction of circuits, electrical components, battery electrodes, etc., can solve the problems of narrow mass transfer channels, accelerated lithium ion adsorption and desorption speed, environmental hazards, etc., to simplify the preparation process, Accelerate the adsorption and desorption speed, improve the effect of adsorption capacity
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Embodiment 1
[0026] Add 50 mL of 1 mol / L antimony potassium tartrate aqueous solution into the glass reactor, add 100 mL of 4 mol / L potassium hydroxide aqueous solution under strong stirring to adjust the pH of the solution to 8-9, then add 50 mL of 4 mol / L hydrogen peroxide aqueous solution, Generate Sb(OH) 5 White precipitate, wash the precipitate with deionized water; add the precipitate to 50mL of 1mol / L tartaric acid aqueous solution, heat and peptize at 60-70°C for 1h, then slowly add 1mol / L lithium hydroxide aqueous solution 100mL, concentrate to form a mass of 100% 88.5g of lithium antimonate hydrosol with a concentration of 20%. Immerse 9.0 g of the cleaned conductive carbon fiber powder into 88.5 g of lithium antimonate hydrosol with a mass percentage concentration of 20%, so that the lithium antimonate sol is coated on the surface of the conductive carbon fiber powder and enters its surface pores, and heated and evaporated The lithium antimonate sol is gelled on the conductive ...
Embodiment 2
[0029] The conductive graphite powder 8.0g that cleans up is immersed in the lithium antimonate hydrosol 80g that is 20% in the mass percent concentration prepared according to the embodiment 1 method, makes lithium antimonate sol be coated on the conductive graphite powder surface and enter its In the surface channel, heat and evaporate to make the lithium antimonate sol gel on the conductive graphite powder, and dry the gel at 100-150°C. Immerse 24.0 g of lithium antimonate gel loaded with conductive graphite powder in 21.3 g of an aqueous solution of stannous acetate with a concentration of 20% by mass, so that stannous acetate is coated on the surface of lithium antimonate, at 100-150 ° C drying. It was put into a high-temperature furnace and heat-treated at 800° C. for 12 hours to form 26.7 g of lithium antimonate ion adsorbent precursor.
[0030] Cover 26.7g of lithium antimonate ion adsorbent precursor with carbon fiber conductive cotton and fill it into titanium catho...
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