NaErF₄:Ho@NaYF₄

Description

NaErF₄:Ho@NaYF₄ Upconversion Nanomaterials

Material Information:
Chemical Composition: NaErF₄: 0.5% Ho@NaYF₄
Crystal Structure: Hexagonal phase
Morphology: Spherical
Average Particle Size: ~30 nm
Optical Properties:
Emission Characteristics: Red Emission
Excitation at 980 nm: Emission Peak at 656 nm
Excitation at 808 nm: Emission Peak at 656 nm
Excitation at 1530 nm: Emission Peak at 656 nm
Surface & Dispersibility:
Solubility Options:
Water-Soluble
Oil-Soluble
Surface Functionalization (Optional):
Oleic Acid
Carboxyl (-COOH)
Amino (-NH₂)
Silica Coating (SiO₂)
Appearance:
Solid Form: White powder
Solvent Options:
Water-Soluble: Water or ethanol
Oil-Soluble: n-Hexane, Cyclohexane, or Toluene

Key Features & Advantages:
Efficient Upconversion Luminescence: Converts near-infrared (NIR) excitation into red light.
Core-Shell Structure: Enhances luminescence intensity and chemical stability.
Versatile Surface Chemistry: Functionalizable with various groups (COOH, NH₂, SiO₂, Oleic Acid) for biocompatibility and targeted applications.
Tunable Solubility: Available in both water and oil-based dispersions, making it adaptable for different applications.
High Chemical & Optical Stability: Retains long-term luminescence and structural integrity.

Applications:
Bioimaging & Biomedical Applications:
Suitable for fluorescent labeling, in vivo imaging, and targeted diagnostics.
Nanoparticle-Based Therapeutics:
Customizable surface allows for drug delivery, photothermal therapy, and molecular tracking.
Optoelectronic & Photonic Devices:
Ideal for optical sensors, upconversion lasers, and quantum electronics.
Security Marking & Anti-Counterfeiting:
Unique upconversion properties enable authentication technologies and invisible ink applications.
Energy Applications:
Potential for photocatalysis and luminescent solar concentrators.