Catalog |
name |
Description |
price |
R-M1-8777 |
PAA-NaGdF4:18%Yb,2%Er |
PAA-NaGdF4:18%Yb,2%Er,Polyacrylic acid modified NaGdF4:18% Yb, 2% Er from ruixibio.The PAA coating serves as a stabilizing agent and can provide functionalization sites for additional modifications, such as conjugation with targeting ligands or drugs for targeted therapy or imaging. The PAA-NaGdF4:18%Yb,2%Er nanomaterial has the advantage of tunable emission and good biocompatibility, making it suitable for applications in bioimaging, molecular sensing, and potentially even photodynamic therapy. |
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R-M1-8782 |
LiYF4:Er3+Yb3+@LiYF4 upconversion nanoparticles(Water soluble upconversion nanoparticles) |
LiYF4:Er3+,Yb3+@LiYF4 upconversion nanoparticles refers to a type of nanomaterial composed of LiYF4 crystals doped with erbium ions (Er3+) and ytterbium ions (Yb3+).These nanoparticles have unique optical properties that allow for the conversion of lower energy photons into higher energy photons through a process called upconversion.The dopant ions, Er3+ and Yb3+,play crucial roles in the upconversion process.Yb3+ absorbs excitation photons of longer wavelength, transferring the energy to Er3+ ions. The excited Er3+ ions then emit photons of higher energy, resulting in upconverted luminescence at shorter wavelengths.The use of LiYF4 as the host material provides a stable and suitable matrix for incorporating the erbium and ytterbium dopants. It offers high transparency, low phonon energy, and efficient energy transfer, which enhances the upconversion efficiency.
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R-M1-8783 |
LiYF4:Er3+ Yb3+ @LiYF4 upconversion nanoparticles(Oil soluble upconversion nanoparticles) |
LiYF4:Er3+,Yb3+@LiYF4 upconversion nanoparticles refers to a type of nanomaterial composed of LiYF4 crystals doped with erbium ions (Er3+) and ytterbium ions (Yb3+).These nanoparticles have unique optical properties that allow for the conversion of lower energy photons into higher energy photons through a process called upconversion.The dopant ions, Er3+ and Yb3+,play crucial roles in the upconversion process.Yb3+ absorbs excitation photons of longer wavelength, transferring the energy to Er3+ ions. The excited Er3+ ions then emit photons of higher energy, resulting in upconverted luminescence at shorter wavelengths.The use of LiYF4 as the host material provides a stable and suitable matrix for incorporating the erbium and ytterbium dopants. It offers high transparency, low phonon energy, and efficient energy transfer, which enhances the upconversion efficiency. |
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R-M1-8784 |
Water soluble NaYF4: Yb/Pr@ NaYF4 nanoparticles |
The water-soluble NaYF4:Yb/Pr@NaYF4 nanoparticles possess unique optical properties that make them valuable for imaging and sensing applications, particularly in the biomedical field. Their ability to convert near-infrared light into visible light offers advantages such as deep-tissue imaging, reduced background noise, and improved signal-to-noise ratios. |
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R-M1-8785 |
Oil-soluble NaYF4:Yb/Pr@NaYF4 nanoparticles(50nm,2mg/ml) |
Oil-soluble NaYF4:Yb/Pr@NaYF4 nanoparticles possess unique optical properties that make them valuable for imaging and sensing applications, especially in oil-based systems. Their ability to convert near-infrared light into visible light enables advantages such as improved imaging in oil-rich environments, reduced background interference, and enhanced signal-to-noise ratios. |
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R-M1-8786 |
NaCeF4 nanoparticles(Oil soluble ) |
NaCeF4 nanoparticles (oil-soluble) refer to a type of nanomaterial composed of sodium cerium fluorides (NaCeF4) that are dispersed and soluble in oil-based solvents.
NaCeF4 nanoparticles can possess unique optical, magnetic, or catalytic properties depending on their composition and size. These nanoparticles find application in areas such as optoelectronics, oil-based imaging, sensing, lubrication, and energy storage. |
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R-M1-8787 |
NaCeF4 nanoparticles(Water soluble ) |
The water solubility of NaCeF4 nanoparticles enables their utilization in biomedical imaging and sensing applications, such as fluorescence imaging, bioimaging, and targeted drug delivery. Their colloidal stability in water allows for uniform dispersion, improved biocompatibility, and reduced aggregation, enhancing their performance in aqueous environments. |
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R-M1-cs8816 |
NaYF4@NaErF4@NaYbF4@NaTmF4 UCNPs |
NaYF4@NaErF4@NaYbF4@NaTmF4 UCNPs are a type of nanomaterial that are capable of converting lower energy photons into higher energy photons through a process known as upconversion.UCNP has low toxicity, photostability, and the ability to emit light in the near-infrared (NIR) region.This unique property makes UCNPs suitable for various applications, including bioimaging, drug delivery, and sensing.
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R-M1-8817 |
NaYF4@NaErYF4@NaYbF4@NaYF4:Tm UCNPs |
NaYF4@NaErYF4@NaYbF4@NaYF4:Tm UCNPs are a type of nanomaterial that are capable of converting lower energy photons into higher energy photons through a process known as upconversion.UCNP has low toxicity, photostability, and the ability to emit light in the near-infrared (NIR) region.This unique property makes UCNPs suitable for various applications, including bioimaging, drug delivery, and sensing. |
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R-M1-8818 |
NaYF4:Er@NaYbF4@NaYF4:Tm UCNPs |
NaYF4:Er@NaYbF4@NaYF4:Tm UCNPs are a type of nanomaterial that are capable of converting lower energy photons into higher energy photons through a process known as upconversion.UCNP has low toxicity, photostability, and the ability to emit light in the near-infrared (NIR) region.This unique property makes UCNPs suitable for various applications, including bioimaging, drug delivery, and sensing. |
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