CsPbCl3 Perovskite quantum dot dispersion

Product Name

Name：CsPbCl3 Perovskite quantum dot dispersion

^{Product Overview}

CsPbCl¡ãChas A typical Abx-¡ãCtype perovskite crystal structure, where the A position is cesium ion (Cs + +), the B position is lead ion (Pb² + +) and the X position is chloride ion (Clâï¿?. This crystal structure exhibits quantum confinement effects at the nanoscale, in which the movement of electrons and holes is restricted in three dimensions, resulting in a band structure and optical and electrical properties different from those of bulk phase materials. Quantum dots typically range in size from a few nanometers to tens of nanometers, and their size can significantly affect their performance. For example, as the size of a quantum dot decreases, its band gap increases, causing the luminous wavelength to shift blue (towards shorter wavelengths).

^{Technical Parameter}

Size:2-10 nm

C:10mg/ml,n-hexane/methylbenzene

^{Product Features}

The luminous spectrum can be adjusted: the luminous spectrum of CsPbCl3 perovskite quantum dots can be adjusted by changing the size and composition of the quantum dots, covering different wavelengths in the visible region.

Half-peak width: The half-peak width of the luminous spectrum is narrower, making the luminous color more pure.

High fluorescence quantum yield: It has a high fluorescence quantum yield, which makes it advantageous in photoelectric conversion and luminescence applications.

Application Fields

Display technology: CsPbCl3 perovskite quantum dots can be used to prepare displays with high color gamut and high color purity to improve the display effect.

Lighting: In the field of LED lighting, CsPbCl3 perovskite quantum dots can be used as luminous materials to achieve efficient and energy-saving lighting solutions.

Solar cells: fused with polymer materials to prepare a thin film as the working layer of solar cells to improve the photoelectric conversion efficiency and stability.

Photodetector: Using its excellent photoelectric conversion performance, the preparation of high-performance photodetectors.

Biological detection and imaging: Quantum dots are also widely used in the field of biological detection and imaging because of their long optical lifetime and high fluorescence stability.

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