Optical glass with high refractive index and preparation method thereof
A technology of optical glass and high refractive index, applied in the field of optical glass, can solve the problems of increasing equipment erosion, undisclosed anti-reflection coating, refractive index and other performances that need to be further improved, so as to promote glass network crosslinking and enhance refractive index and light transmittance, enhanced strength and density effects
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Embodiment 1
[0028] Step 1: (1) ultrasonically disperse bismuth nitrate in ethylene glycol, drop zinc nitrate solution; ultrasonically homogenize; place the obtained solution in a microwave reactor, set the power to 520W for 5 minutes, wash, filter and dry; Transfer to a high-temperature furnace and set the temperature at 550°C for 1.5 hours to obtain Zn-Bi 2 o 3 . (2) Mix tetrabutyl titanate, absolute ethanol, and hydrofluoric acid evenly, add copper nitrate and cerium nitrate, and stir continuously for 3.5 hours to obtain a mixed solution, which is placed in an autoclave with a temperature of 160°C , hydrothermal reaction for 24 hours, washed, filtered and dried; transferred to a high-temperature furnace, set the temperature at 450 ° C for 2.5 hours in a nitrogen atmosphere, and calcined for 2.5 hours to obtain Ce-Cu-TiO 2 . (3) Dissolve ammonium metatungstate in deionized water, add indium nitrate, stir to form a sol, add polyvinyl alcohol solution, add nitric acid dropwise, homogeni...
Embodiment 2
[0033] Step 1: (1) ultrasonically disperse bismuth nitrate in ethylene glycol, drop zinc nitrate solution; ultrasonically homogenize; place the obtained solution in a microwave reactor, set the power to 520W for 2 minutes, wash, filter and dry; Transfer to a high-temperature furnace and set the temperature at 500°C for 1 hour to obtain Zn-Bi 2 o 3 . (2) Mix tetrabutyl titanate, absolute ethanol, and hydrofluoric acid evenly, add copper nitrate and cerium nitrate, and stir continuously for 3 hours to obtain a mixed solution, which is placed in a high-pressure reactor and set at a temperature of 160°C , hydrothermal reaction for 24 hours, washed, filtered and dried; transferred to a high-temperature furnace, set the temperature at 400 ° C for 2 to 3 hours in a nitrogen atmosphere, and obtained Ce-Cu-TiO 2 . (3) Dissolve ammonium metatungstate in deionized water, add indium nitrate, stir to form a sol, add polyvinyl alcohol solution, add nitric acid dropwise, homogenize; lyoph...
Embodiment 3
[0038] Step 1: (1) ultrasonically disperse bismuth nitrate in ethylene glycol, drop zinc nitrate solution; ultrasonically homogenize; place the obtained solution in a microwave reactor, set the power to 520W for 6 minutes, wash, filter and dry; Transfer to a high-temperature furnace and set the temperature at 600°C for 2 hours to obtain Zn-Bi 2 o 3 . (2) Mix tetrabutyl titanate, absolute ethanol, and hydrofluoric acid evenly, add copper nitrate and cerium nitrate, and stir continuously for 4 hours to obtain a mixed solution, which is placed in a high-pressure reactor and set at a temperature of 160°C , hydrothermal reaction for 24 hours, washed, filtered and dried; transferred to a high-temperature furnace, set the temperature at 500 ° C for 3 hours in a nitrogen atmosphere, and calcined for 3 hours to obtain Ce-Cu-TiO 2 . (3) Dissolve ammonium metatungstate in deionized water, add indium nitrate, stir to form a sol, add polyvinyl alcohol solution, add nitric acid dropwise,...
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