Boron nitride quantum dots are a striking new type of nanomaterial that has shown great potential for applications in multiple fields due to its unique physical and chemical properties. The material is composed of nitrogen and boron, and through a sophisticated preparation process, quantum dots can be formed in the nanometer scale. These quantum dots not only have excellent stability, but also exhibit unique optical, electrical, and magnetic properties.
Boron nitride quantum dots are unique in their quantum confinement effects, which allow them to exhibit very different properties at the nanoscale than macroscopic materials. In terms of optics, boron nitride quantum dots have the characteristics of wide excitation and narrow emission, and can emit fluorescence in multiple wavelength bands, providing new possibilities for biomedical imaging, display and other fields. In addition, they have excellent photostability and are able to maintain the fluorescence intensity under long-term excitation, which facilitates long-term observation and real-time monitoring.
In terms of electricity, boron nitride quantum dots exhibit good electron transport performance and are expected to play an important role in nanoelectronic devices, sensors and other fields. At the same time, they also have excellent magnetic properties, which can realize the transition of spin state under the control of magnetic field, which provides new ideas for quantum computing and spintronics.
There are various preparation methods for boron nitride quantum dots, including high-temperature synthesis, solution synthesis, etc. With the continuous development of fabrication technology, it is expected that the size, morphology and properties of quantum dots can be precisely controlled, and their application fields will be further expanded. At present, boron nitride quantum dots have shown preliminary application results in the fields of biomedicine, energy, and environment, indicating that this material will become an important force in scientific and technological innovation in the future.
Boron nitride quantum dots450-650nm
Boron nitride quantum dotsReddish glow
The red glowsBoron nitride quantum dots
Boron nitride quantum dotshairYellowLight
Custom synthesis of quantum dots (graphene quantum dots) is available:
Color: red, yellow, blue, green.
Wavelength: The wavelength is between 450-650nm.
Solvents: Solvents can be water, ethanol, and other types of solvents.
Purpose: For scientific research only!