Water Dispersible Upconverting Nanoparticles

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Product Details:

HS Code nan
Storage Store at 2-8C, protect from light
Boiling point nan
Poisonous Yes
Structural Formula nan
Ph Level 7.0-8.0 (typical dispersion)
Other Names UCNPs
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Water Dispersible Upconverting Nanoparticles Product Specifications

Boiling point nan
Storage Store at 2-8C, protect from light
HS Code nan
Standard Customizable, conforms to research and industrial standards
Grade Research Grade
Structural Formula nan
CAS No nan
Poisonous Yes
Shape Spherical or Hexagonal
Solubility Water Dispersible
Smell Odorless
Other Names UCNPs
Refractive Rate nan
Ph Level 7.0-8.0 (typical dispersion)
Taste Odorless and Tasteless
Usage Scientific Research, Laboratory Use, Industrial Applications
Type Nanoparticles
EINECS No nan
Chemical Name Sodium Yttrium Fluoride Doped With Ytterbium and Erbium/Tm/Ho
Application Biomedical Imaging, Drug Delivery, Photodynamic Therapy, Security Marking, Bio-sensing
Melting Point nan
Form Dispersion (Colloidal)
Purity >99%
Density Gram per cubic centimeter(g/cm3)
Main Material Upconverting Rare Earth Nanoparticles (NaYF4:Yb,Er/Tm/Ho)
Molecular Weight nan
Molecular Formula NaYF4:Yb,Er
Classification Inorganic Nanomaterial

Water Dispersible Upconverting Nanoparticles Trade Information

Main Export Market(s) Western Europe, Asia, Australia, North America, South America, Eastern Europe, Middle East, Central America, Africa
Main Domestic Market All India

Product Description

Water Dispersible Upconverting Nanoparticles

Chemical Name	Upconverting nanoparticles/Quantum dots
Catalog code	NCZ-UCNP-101
Appearance	Ivory white solution
Solvent	water
Excitation wavelength	975 nm
MF	NaYREF4(RE: Yb, Er, Tm, Gd, Mn, Lu)
CAS Number	7681-49-4(Sodium fluoride)
Sensitizer	Ytterbium (Yb3+)
Concentration	5 mg/mL, Concentration Customization: Possible
Particle Size and Morphology	25 nm, nanosized spheres

Customizable Upconversion Nanoparticles for Advanced Applications

Our water-dispersible UCNPs are tailored to your research or industrial needs. Choose from a range of particle sizes (2050 nm), shapes (spherical or hexagonal), and surface functional groups (PEG, silane, or carboxyl). Emitting visible wavelengths upon near-infrared excitation, these nanoparticles are ideal for high-sensitivity uses such as biomedical imaging, drug delivery, security labelling, and sensing.

Superior Stability and Safety

These nanoparticles are colloidally stable in aqueous media, ensuring consistent performance in laboratory and industrial environments. They are non-toxic, odorless, tasteless, and classified as non-hazardous under standard lab conditions, making handling and storage straightforward. With a typical pH of 7.08.0 and long shelf life, they seamlessly integrate into diverse workflows.

FAQs of Water Dispersible Upconverting Nanoparticles:

Q: How should Water Dispersible Upconverting Nanoparticles be stored for optimal stability?

A: Store the nanoparticles at 28C and protect them from light. Properly stored dispersions remain stable and effective for up to 12 months.

Q: What are the benefits of surface modifications like PEGylation or silane on these nanoparticles?

A: Surface modifications such as PEGylation or silane enhance biocompatibility, colloidal stability, and provide functional groups for conjugation, facilitating customized applications in biomedical research and sensing.

Q: In which applications can these UCNPs be advantageously used?

A: These nanoparticles are ideal for biomedical imaging, drug delivery, photodynamic therapy, security marking, and bio-sensing, owing to their unique upconversion properties and water dispersibility.

Q: How can researchers customize the excitation and emission wavelengths?

A: Customization is available for excitation and emission wavelengths by adjusting rare earth dopant combinations during synthesis, ensuring the nanoparticles meet specific experimental or industrial requirements.

Q: What process is used to disperse these nanoparticles in water?

A: The nanoparticles are engineered with hydrophilic surface groups (PEG, silane, or carboxyl), enabling ready dispersion in aqueous buffers or deionized water for immediate use in experimental protocols.

Q: Are there any safety concerns when handling these nanoparticles in the lab?

A: The UCNPs are non-toxic and are not classified as hazardous under standard laboratory conditions, making them safe for routine handling and experimentation.

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