SnO2 quantum dots dispersion

Product Name

^{Name: SnO2 quantum dots dispersion}

Product Overview

 ^{In recent years, the study of wide bandgap semiconductor quantum dots such as tin dioxide (SnO2) has attracted widespread attention. SnO2 is a wide bandgap N-type semiconductor with a bandgap width (Eg) of 3 62 eV (300 K) has attracted great attention due to its excellent catalytic and gas sensing properties, as well as special optoelectronic properties. As an important functional material, it has potential application value in various fields such as gas sensing components, catalytic materials, solar cells, etc.}

^{Xianfeng nano tin dioxide quantum dots were prepared by liquid-phase method, and the powder was obtained by solution first and then freeze-drying.}

^{Technical Parameter}

Status：Yellow dispersion

Concentration:0mg/mL

Size:-5nm

^{Product Features}

^{High photoelectric conversion efficiency: Due to its size limitation effect, nano tin dioxide quantum dots exhibit high photoelectric conversion efficiency.}

^{Good catalytic activity: It has good catalytic activity and stability, and can be used in fields such as catalysts, electrocatalysis, and photocatalysis.}

^{Good biocompatibility: In the biomedical field, its excellent biocompatibility enables tin dioxide quantum dots to be used for biological labeling, drug delivery, and other applications.}

^{Excellent electrical properties: With high carrier mobility and adjustable electronic structure, they have potential application value in the field of electronic devices.}

^{Application Fields}

^{Photovoltaic devices: Tin dioxide quantum dots have potential application value in the field of photovoltaic devices due to their excellent photoelectric conversion efficiency.}

^{Optical sensor: The adjustable optical properties make tin dioxide quantum dots suitable for the preparation of optical sensors.}

^{Catalyst: The excellent catalytic activity and stability of tin dioxide quantum dots make them suitable for applications in catalysis, electrocatalysis, and photocatalysis, such as water splitting, CO2 reduction, and organic synthesis reactions.}

^{Related Information}

^{Please e-mail for the detailed characterization data.}

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