Description
Specifications Table
Product Name – CdTe Core Type COOH Functionalized Quantum Dots, Fluorescence 610 nm (Hydrophilic)
Quantity/Pack Size – 10 Mg
Form – Hydrophilic
Grade – High Purity
Application – Fluorescence
Product Overview
CdTe Core Type COOH Functionalized Quantum Dots with 610 nm fluorescence are advanced nanocrystals designed for high-performance fluorescence applications. These quantum dots are equipped with carboxylic acid (COOH) functional groups, enhancing their solubility and compatibility in aqueous environments. The hydrophilic nature of these quantum dots makes them ideal for biological and biomedical applications, where water solubility is crucial. Their unique optical properties, including high quantum yield and narrow emission spectra, make them excellent for fluorescence imaging, biosensing, and other photonic applications. The COOH functionalization allows for easy conjugation with biomolecules, antibodies, and other functional groups, expanding their utility in various research and diagnostic settings.
FAQs
1. What are the primary applications of CdTe Quantum Dots?
CdTe Quantum Dots are primarily used in fluorescence imaging, biosensing, and other photonic applications due to their high quantum yield and narrow emission spectra.
2. Are these quantum dots compatible with biological samples?
Yes, these quantum dots are hydrophilic and COOH functionalized, making them highly compatible with biological samples and aqueous environments.
3. Can I use these quantum dots for in vivo imaging?
While these quantum dots are suitable for in vitro applications, their use for in vivo imaging should be evaluated based on specific experimental conditions and regulatory guidelines.
4. How should I store these quantum dots?
Store these quantum dots at 4°C in a dark environment to maintain their stability and optical properties.
5. What are the alternatives to CdTe Quantum Dots?
Alternatives to CdTe Quantum Dots include CdSe, CdS, and InP quantum dots, each with unique optical properties and applications.
