Quantum dots and preparation method thereof
A technology of quantum dots and ions, applied in the field of quantum dots and their preparation, can solve the problems of high cost, long preparation time, poor stability of quantum dots, etc.
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[0021] On the one hand, the embodiment of the present invention provides a method for preparing quantum dots, comprising the following steps:
[0022] S001: providing group III cation precursors and ligands, dissolving the group III cation precursors and ligands in a solvent, and performing heat treatment under a first temperature condition to obtain a mixed solution;
[0023] S002: continue to heat up the mixed solution to a second temperature, and then add a group V anion precursor to the mixed solution to perform a nucleation reaction to obtain a group III-V quantum dot nuclei solution.
[0024] In the preparation method of quantum dots provided by the embodiments of the present invention, before the nucleation reaction, the group III cation precursor and the ligand are dissolved in a solvent and heated under the first temperature condition, so that not only the ligand can be combined with the group III The full coordination of cations is conducive to the full reaction of a...
Embodiment 1-1
[0181] (1) Preparation of quantum dot core InP:Zn solution
[0182] At room temperature, add 0.2mmol indium chloride and 1mmol zinc acetate into a 50ml three-necked flask, then add 1ml oleic acid and 10ml octadecene. Vacuumize at 80°C for 60mins under vacuum protection, and then exhaust nitrogen at 140°C for 60mins under nitrogen atmosphere protection. Raise the temperature to 280°C, add 0.15mmol tris(trimethylsilyl)phosphine, and react for 2mins to obtain an InP:Zn quantum dot nucleus solution.
[0183] (2) Synthesis of the quantum dot shell ZnS covering the quantum dot core InP:Zn
[0184] At 300° C., 0.3 ml of octyl mercaptan and 2 mmol of zinc oleate were added to the InP:Zn quantum dot core solution. After 60mins of reaction, InP / ZnS core-shell quantum dots were obtained.
Embodiment 1-2
[0186] (1) Preparation of quantum dot core InP:Zn solution
[0187] At room temperature, add 0.2mmol indium chloride and 1mmol zinc acetate into a 50ml three-necked flask, then add 1ml oleic acid and 10ml octadecene. Vacuumize at 80°C for 60mins under vacuum protection, and then exhaust nitrogen at 140°C for 60mins under nitrogen atmosphere protection. Raise the temperature to 280°C, add 0.15mmol tris(trimethylsilyl)phosphine, and react for 2mins to obtain an InP:Zn quantum dot nucleus solution.
[0188] (2) Synthesis of quantum dot shell ZnSe / ZnS covering the quantum dot core InP:Zn
[0189] At 300° C., 0.2 mmol tributylphosphine selenide was added to the InP:Zn quantum dot core solution. After reacting for 20 mins, 0.2 ml of octyl mercaptan and 2 mmol of zinc oleate were added. After 40mins of reaction, InP / ZnSe / ZnS core-shell quantum dots were obtained.
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