Method for measuring coverage rate of quantum dot surface ligand
A technology of surface ligand and measurement method, applied in the field of quantum dots, can solve the problems of poor uniformity of quantum dot solution, non-uniform photoelectric efficiency, non-uniform panel quality, etc., to avoid coffee ring effect, ensure solubility, and simple operation. Effect
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Embodiment 1
[0037] Determination of Coverage of Thiol Ligands on the Surface of CdSe Quantum Dots by TEM Combined with Thermogravimetric Analysis
[0038] Use TEM to determine the size d of the quantum dots, take the CdSe quantum dots whose surface ligand is octylthiol and dissolve them in n-hexane solution to prepare a 5 mg / ml solution. After the solution is completely dissolved, take a small amount of quantum dot solution and drop 5 Drop on the copper grid, and put the copper grid in the transmission electron microscope analyzer for testing and analysis. Set the accelerating voltage to 200kV, the emission current to 10μA, the working distance to 15 mm, and the dead time to 20%. For magnification analysis of the sample, first set the magnification to 70,000 times, take the area where the quantum dots are concentrated and uniformly dispersed for focusing analysis, and take its TEM picture. To analyze the TEM image, first set the scale length, and then take 30-80 quantum dots for calibrat...
Embodiment 2
[0042] Determination of long-chain alkyl acid ligand coverage on the surface of CdSe quantum dots by TEM combined with thermogravimetric analysis
[0043] The size d of the quantum dots was determined using TEM. Take the CdSe quantum dot whose surface ligand is octadecenoic acid and dissolve it in n-hexane solution to prepare a 1 mg / ml solution. After the solution is completely dissolved, take a small amount of quantum dot solution and drop 10 drops on the copper grid. Placed in a transmission electron microscope analyzer for test analysis. Set the acceleration voltage to 300kV, the emission current to 10μA, the working distance to 15 mm, and the dead time to 20%. For magnification analysis of the sample, first set the magnification to 150,000 times, take the area where the quantum dots are concentrated and evenly dispersed for focusing analysis, and take its TEM picture. To analyze the TEM image, first set the scale length, and then take 30-80 quantum dots for calibration, ...
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