Self-cleaning anti-fingerprint cover plate glass for touch screens, and preparation method thereof
A self-cleaning technology for cover glass, applied in the direction of zinc oxide/zinc hydroxide, copper oxide/copper hydroxide, etc., can solve problems affecting display quality, scratches on the touch screen, and difficult to erase, etc., to achieve Excellent self-cleaning ability, good antibacterial effect, and convenient operation
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Embodiment 1
[0024] Example 1: Preparation of Tetraacicular ZnO Whiskers
[0025] Take the zinc pellets and put them into a tablet machine to press them into thin slices, then put them into an alumina crucible, place the alumina crucible in a muffle furnace, raise the temperature to 450°C at a rate of 8°C / min and keep it at a constant temperature for 2 hours, then heat it up for 5 Raise the temperature at a rate of °C / min to 950 °C and keep at a constant temperature for 1 hour, cool down with the furnace, and grind to obtain tetraneedle-shaped ZnO powder.
[0026] S-4800 field emission scanning electron microscope was used to test the morphology of the ZnO powder prepared in this embodiment, and it was found that the ZnO whisker particle size in the ZnO powder sample was small, and four needles with uniform diameter grew, and The roots of the needles grow together, the root end is thicker, the top is thinner, and the root end smoothly transitions to the tip without sudden change, showing a...
Embodiment 2
[0027] Example 2: Preparation of self-cleaning composite nanoparticles
[0028] Take the four-needle ZnO whisker and soak it in 0.1mol / L copper acetate solution at 65°C for 1min, wash it with deionized water, then submerge it in 0.02mol / L NaOH solution at 65°C for 1min, and wash it with deionized water , repeated immersion in copper acetate solution and NaOH solution 10 times, after washing and drying, transferred to a tube vacuum furnace in an argon atmosphere, raised the temperature to 300 ° C for 2 hours, and cooled with the furnace to obtain ZnO-Cu 2 O composite particles. Using field emission scanning electron microscopy, it was found that nano-Cu in the sample2 O attaches to the whisker roots and whiskers of the tetraacicular ZnO whiskers.
[0029] Take absolute ethanol and deionized water and mix them at a volume ratio of 3:4 to obtain a mixed solution, and put 0.5g of ZnO-Cu into each 100mL mixed solution 2 O composite particles, ultrasonically disperse at 25kHz for ...
Embodiment 3
[0030] Example 3: Preparation of self-cleaning composite nanoparticles
[0031] Take four-needle ZnO whiskers and soak in 0.1mol / L copper acetate solution at 65°C for 3 minutes, wash with deionized water, then soak in 0.02mol / L NaOH solution at 65°C for 3 minutes, and wash with deionized water , repeated immersion in copper acetate solution and NaOH solution 10 times, after washing and drying, transferred to a tube vacuum furnace in an argon atmosphere, raised the temperature to 350 ° C for 2 hours, and cooled with the furnace to obtain ZnO-Cu 2 O composite particles. Using field emission scanning electron microscopy, it was found that nano-Cu in the sample 2 O attaches to the whisker roots and whiskers of the tetraacicular ZnO whiskers.
[0032] Take absolute ethanol and deionized water and mix them at a volume ratio of 3:4 to obtain a mixed solution, and put 0.5g of ZnO-Cu into each 100mL mixed solution 2 O composite particles, ultrasonically disperse at 25kHz for 5min, t...
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