Product luminescent-nanoparticles-upconversion-luminescent-material

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Catalog	name	Description	price
R-AS-0007	UCNPS-MPS	Mesoporous silica (m-sio2) nanomaterials have a continuous adjustable mesoporous pore size,controllable size,stable skeleton structure,easy to modify the internal and external surfaces and good biocompatibility.In addition,it can store a variety of drug molecules in its rich channels,which can also play a role in drug release.	price>
R-AS-0008	UCNPS-CS	Chitosan was modified on the surface of nanoparticles by the chemical bonding of N and O atoms in amino and hydroxyl groups with Ag+ which restricted the growth of nanoparticles and prevented their agglomeration.	price>
R-AS-0009	UCNPS-HA	Hyaluronic acid (HA) is a kind of linear macromolecular acidic mucopolysaccharide,which is widely distributed in the extracellular matrix of soft connective tissue.It is composed of glucuronic acid and N-acetylglucosamine.Upconversion luminescent nanoparticles are mainly obtained by doping trivalent rare earth ions in oxides,fluorides,halogenated oxides and other substrates.They are widely used in biological fluorescence labeling and imaging,lasers,solar cells,anti-counterfeiting technology and other fields.	price>
R-AS-0010	UCNPS-SA	Gold nanoparticles modified by streptavidin (SA).Gold nanoparticles can be easily functionalized by antibody,oligonucleotide,biotin, protein A,lectin, enzyme and other key probe molecules by electrostatic modification or covalent coupling.This hybrid system of biomolecular nanoparticles is the basic building block of biosensor,targeted drug and gene delivery,photothermal therapy and biomaterial imaging.Streptavidin biotin system has the characteristics of high sensitivity,good specificity,high stability and wide application.	price>
R-AS-0011	UCNPS-BSA	Upconversion luminescence is based on the two-photon or multiphoton process.The luminescence center absorbs two or more photons one after another,and reaches the luminescence level through the non radiative relaxation, and then transits to the ground state to produce short wavelength photons,that is,the low-frequency excitation luminescence is converted into high-frequency emission light.	price>
R-AS-0012	Tf-UCNPS	Upconversion nanomaterial is a kind of fluorescent nano material,which is excited by low-energy infrared or near-infrared light by doping rare-earth ions, and radiates high-energy visible light.Ruixi can provide a variety of up conversion nanoparticles.	price>
R-AS-0013	UCNPS-PEI	Upconversion nanomaterial is a kind of fluorescent nano material,which is excited by low-energy infrared or near-infrared light by doping rare-earth ions, and radiates high-energy visible light.Ruixi can provide a variety of up conversion nanoparticles.	price>
R-AS-0014	UCNPS-OVA	Nanomaterials can be used as drug delivery carriers due to their large specific surface area.By using amphiphilic polymer modified transluminescent nanomaterials,the hydrophobic layer between the nanomaterials and the hydrophilic end can adsorb some chemical drugs such as doxorubicin (DOX),and then connect some targeted groups such as folic acid (FA) on its surface,which can realize the targeted drug delivery.Upconversion nanomaterial is a kind of fluorescent nano material,which is excited by low-energy infrared or near-infrared light by doping rare-earth ions,and radiates high-energy visible light.RUIXI can provide a variety of up conversion nanoparticles.	price>
R-SA-6501	Amination Upconverting nanoparticles	Amination Upconversting nanoparticles Amination Upconversion nanoparticles from ruixi The emerging up-conversion nanoparticles (UCNPs) offer a wide range of biotechnology applications, from biomarkers and deep tissue imaging, to single molecule tracking and drug delivery. Their successful conjugation to biocompatible agents is crucial for specific molecules recognition	price>
R-SC-650	Water soluble Upconversion Nanoparticles	Water soluble Upconversion Nanoparticles,Water dispersible upconverting nanoparticles, absorbance 980 nm from ruixi.Upconversion nanomaterials （UCNPS) can convert nearly infrared light into visible light through two-photon or multiphoton absorption mechanism, which has unique luminescence characteristics. Nano particle size can be customized according to customer needs. The product has uniform particle size, high luminous quantum efficiency and good light stability. After surface modification, this series of products can be used in fluorescence imaging, biological detection, photodynamic therapy, as well as remote release of anticancer drugs and biomolecules.	price>

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