Luminescence film material and its preparation method
A luminescent thin film and raw material technology, applied in luminescent materials, chemical instruments and methods, zinc oxide/zinc hydroxide, etc., can solve the problem of low luminous efficiency
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[0020] The preparation method of the above-mentioned luminescent film material can be a sol-gel method, which includes the following steps:
[0021] (1) Prepare M ion solution. The raw material containing M is dissolved in the first solvent to prepare a 0.001mol / L-0.01mol / L M ion solution. Wherein the raw material of M can be the salt of this M, preferably chloroauric acid (HAuCl 4 4H 2 O), chloroplatinic acid (H 2 PtCl 6 ·6H 2 O), silver nitrate (AgNO 3 ) or palladium chloride (PdCl 2 ) at least one of. The first solvent is preferably absolute ethanol or deionized water.
[0022] (2) Prepare the precursor solution. The raw materials of zinc and rare earth can be weighed according to the ratio of Zn:Re=(1-x):x, and the stabilizer and the aforementioned M ion solution are added, and the total concentration of zinc ion and rare earth ion is prepared to be 0.05mol with the second solvent / L~0.70mol / L precursor solution. Wherein the raw material of zinc can be zinc salt...
Embodiment 1
[0029] Take by weighing silver nitrate 0.8494g, be made into the aqueous solution 1000mL that concentration is 0.005mol / L; According to chemical formula Zn 0.99 Eu 0.01 For the molar ratio of each element in O, 1.3494g of zinc chloride, 0.0446g of europium nitrate and 1.26mL of ethanolamine were weighed respectively, and then 12mL of silver nitrate solution was added, and the total molar concentration of zinc ions and europium ions was prepared with ethanol to be 0.2mol / L. 50mL of ethanol solution; followed by stirring in a water bath at 65°C for 4h to obtain a uniform Zn 0.99 Eu 0.01 O precursor solution; finally the resulting Zn 0.99 Eu 0.01 The O precursor solution was aged in an oven at 60 °C for 60 h to obtain Zn doped with silver ions 0.99 Eu 0.01 O colloid.
[0030] The obtained Zn added with silver ions 0.99 Eu 0.01 O colloid is coated on the substrate, and the coating is applied by spin coating, and the number of times is 8 times. After each coating, the film ...
Embodiment 2
[0032] Take by weighing 1.6987g of silver nitrate, and make it into 1000mL of ethanol solution with a concentration of 0.01mol / L; according to the chemical formula Zn 0.96 Tb 0.04 For the molar ratio of each element in O, weigh 1.4280g of zinc nitrate, 0.0747g of terbium chloride and 0.63mL of ethanolamine, then add 2.5mL of silver nitrate solution, and prepare the total molar concentration of zinc ions and terbium ions with ethanol to be 0.1mol / L 50mL of ethanol solution; followed by stirring in a water bath at 50°C for 8h to obtain a uniform Zn 0.96 Tb 0.04 O precursor solution, and finally the resulting Zn 0.96 Tb 0.04 The O precursor solution was aged in an oven at 55 °C for 88 h to obtain Zn doped with silver ions 0.96 Tb 0.04 O colloid.
[0033] The obtained Zn added with silver ions 0.96 Tb 0.04 O colloid is coated on the substrate, and the coating is applied by spin coating, and the number of times is 10 times. After each coating, the film is placed in an oven ...
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