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Catalog	name	Description	price
R-M-5381	SF750-Mal	In addition to its superior fluorescence characteristics (such as high brightness and super light stability), the design of SFTM fluorophores also simplifies the fluorescence labeling and detection process. SFTM fluorophores can be directly used in aqueous working buffer without adding any organic solvent.The elimination of organic solvents can not only simplify the labeling and detection process, but also provide additional protection for molecules from some harsh organic solvents.In addition, SFTM fluorophores provide a variety of chemical reactions and / or bioactive parts, which can be directly used to label, image and detect various molecules and particles. These fluorophores range from ultraviolet to near-infrared and can be used for in vitro and in vivo imaging.	price>
R-C-4716	PAMAM-PEG-PGA PGA Degree of polymerization is100 PAMAM /Generation 1.0	Polyamide amine dendrimer(PAMAM)is one of the earliest synthesized dendrimers.It is monodisperse, with a cavity inside and a high-density amine group on the surface.As an excellent nano single molecule surfactant,it has good solubilization,demulsification and stability.	price>
R-M1-8834	alpha-Man-TEG-N3	alpha-Man-TEG-N3 combines the enzymatic activity of alpha-mannosidase, the hydrophilic properties of the TEG linker, and the reactivity of the azide group for selective bioconjugation through click chemistry. It is commonly employed in glycosylation studies, protein modification, labeling, and detection in glycobiology and biotechnology research.	price>
R-M-5382	SF750-NH2	In addition to its superior fluorescence characteristics (such as high brightness and super light stability), the design of SFTM fluorophores also simplifies the fluorescence labeling and detection process. SFTM fluorophores can be directly used in aqueous working buffer without adding any organic solvent.The elimination of organic solvents can not only simplify the labeling and detection process, but also provide additional protection for molecules from some harsh organic solvents.In addition, SFTM fluorophores provide a variety of chemical reactions and / or bioactive parts, which can be directly used to label, image and detect various molecules and particles.These fluorophores range from ultraviolet to near-infrared and can be used for in vitro and in vivo imaging.	price>
R-C-4717	polyglycolide-polyethylene glycol550-PAMAM	Polyamide amine dendrimer(PAMAM)is one of the earliest synthesized dendrimers.It is monodisperse,with a cavity inside and a high-density amine group on the surface.As an excellent nano single molecule surfactant,it has good solubilization,demulsification and stability.	price>
R-M1-8835	alpha-Man-TEG-Alkyne	alpha-Man-TEG-Alkyne combines the enzymatic activity of alpha-mannosidase, the hydrophilic properties of the TEG linker, and the reactivity of the alkyne group for selective bioconjugation through click chemistry. It finds applications in glycosylation studies, protein modification, labeling, and detection in the fields of glycobiology and biotechnology.	price>
R-M-5383	SF750-SH	In addition to its superior fluorescence characteristics (such as high brightness and super light stability), the design of SFTM fluorophores also simplifies the fluorescence labeling and detection process. SFTM fluorophores can be directly used in aqueous working buffer without adding any organic solvent.The elimination of organic solvents can not only simplify the labeling and detection process, but also provide additional protection for molecules from some harsh organic solvents.In addition, SFTM fluorophores provide a variety of chemical reactions and / or bioactive parts, which can be directly used to label, image and detect various molecules and particles.These fluorophores range from ultraviolet to near-infrared and can be used for in vitro and in vivo imaging.	price>
R-C-4718	PAMAM-PEG750-PGA	Polyamide amine dendrimer(PAMAM)is one of the earliest synthesized dendrimers.It is monodisperse,with a cavity inside and a high-density amine group on the surface.As an excellent nano single molecule surfactant,it has good solubilization,demulsification and stability.	price>
R-M1-8836	Biotin-PEG(4)-Dde-N3	Biotin-PEG(4)-Dde-N3 combines the high affinity of biotin for avidin or streptavidin, the flexibility and steric distance of the PEG linker, the selective protection of the amine group with the Dde protecting group, and the reactivity of the azide group for selective bioconjugation through click chemistry. It is commonly used for biotinylation of biomolecules, protein purification, and for generating biotinylated probes for various detection and labeling applications in biological and biomedical research.	price>
R-M-5384	SF750-N3	In addition to its superior fluorescence characteristics (such as high brightness and super light stability), the design of SFTM fluorophores also simplifies the fluorescence labeling and detection process. SFTM fluorophores can be directly used in aqueous working buffer without adding any organic solvent.The elimination of organic solvents can not only simplify the labeling and detection process, but also provide additional protection for molecules from some harsh organic solvents.In addition, SFTM fluorophores provide a variety of chemical reactions and / or bioactive parts, which can be directly used to label, image and detect various molecules and particles.These fluorophores range from ultraviolet to near-infrared and can be used for in vitro and in vivo imaging.	price>
R-C-4719	PLGA-TK-PEG-SS31	Poly (lactic acid-glycolic acid) copolymer PLGA is randomly polymerized from two monomers - lactic acid and glycolic acid. It is a degradable functional polymer organic compound with good biocompatibility, non-toxic, good capsulation and film-forming properties, and is widely used in pharmaceutical, medical engineering materials and modern industrial fields.	price>
R-M1-8837	Biotin-PEG(3)-SS-Py	Biotin-PEG(3)-SS-Py/Biotin-PEG(3)-SS-pyridin combines the high affinity of biotin for avidin or streptavidin, the flexibility and steric distance provided by the PEG linker, the reversible covalent interactions through the disulfide bond, and the selective reactivity of the pyridyl group. It is commonly used for biotinylation of biomolecules, protein purification, reversible protein modification, and controlled release applications in biological and biomedical research.	price>
R-M-5385	SF750-DBCO	In addition to its superior fluorescence characteristics (such as high brightness and super light stability), the design of SFTM fluorophores also simplifies the fluorescence labeling and detection process. SFTM fluorophores can be directly used in aqueous working buffer without adding any organic solvent.The elimination of organic solvents can not only simplify the labeling and detection process, but also provide additional protection for molecules from some harsh organic solvents.In addition, SFTM fluorophores provide a variety of chemical reactions and / or bioactive parts, which can be directly used to label, image and detect various molecules and particles.These fluorophores range from ultraviolet to near-infrared and can be used for in vitro and in vivo imaging.	price>
R-C-4720	PLGA-TK-PEG350-SS31	Poly (lactic acid-glycolic acid) copolymer PLGA is randomly polymerized from two monomers - lactic acid and glycolic acid. It is a degradable functional polymer organic compound with good biocompatibility, non-toxic, good capsulation and film-forming properties, and is widely used in pharmaceutical, medical engineering materials and modern industrial fields.	price>
R-M1-8838	Biotin-PEG(4)-SS-DBCO	Biotin-PEG(4)-SS-DBCO is a molecule that combines biotin, PEG(4), a disulfide bond, and DBCO. This molecule could be used in biotechnological applications such as labeling, targeting, or conjugating biomolecules.	price>
R-M-5386	SF750-NHNH2	In addition to its superior fluorescence characteristics (such as high brightness and super light stability), the design of SFTM fluorophores also simplifies the fluorescence labeling and detection process. SFTM fluorophores can be directly used in aqueous working buffer without adding any organic solvent.The elimination of organic solvents can not only simplify the labeling and detection process, but also provide additional protection for molecules from some harsh organic solvents.In addition, SFTM fluorophores provide a variety of chemical reactions and / or bioactive parts, which can be directly used to label, image and detect various molecules and particles.These fluorophores range from ultraviolet to near-infrared and can be used for in vitro and in vivo imaging.	price>
R-C-4721	PLGA-TK-polyethylene glycol550-SS31	Poly (lactic acid-glycolic acid) copolymer PLGA is randomly polymerized from two monomers - lactic acid and glycolic acid. It is a degradable functional polymer organic compound with good biocompatibility, non-toxic, good capsulation and film-forming properties, and is widely used in pharmaceutical, medical engineering materials and modern industrial fields.	price>
R-M1-8839	Biotin-PEG(4)-SS-Alkyne	Biotin-PEG(4)-SS-Alkyne is a molecule that combines biotin, PEG(4), a disulfide bond, and an alkyne group. This molecule could be used in various applications such as labeling, targeting, or conjugating biomolecules, taking advantage of its biotinylated group, PEG spacer, disulfide redox-cleavable bond, and alkyne functionality for further modification or bioconjugation reactions.	price>
R-M-5387	SF750-biotin	In addition to its superior fluorescence characteristics (such as high brightness and super light stability), the design of SFTM fluorophores also simplifies the fluorescence labeling and detection process. SFTM fluorophores can be directly used in aqueous working buffer without adding any organic solvent.The elimination of organic solvents can not only simplify the labeling and detection process, but also provide additional protection for molecules from some harsh organic solvents.In addition, SFTM fluorophores provide a variety of chemical reactions and / or bioactive parts, which can be directly used to label, image and detect various molecules and particles.These fluorophores range from ultraviolet to near-infrared and can be used for in vitro and in vivo imaging.	price>
R-C-4722	SS31-PEG750-TK-PLGA	Poly (lactic acid-glycolic acid) copolymer PLGA is randomly polymerized from two monomers - lactic acid and glycolic acid. It is a degradable functional polymer organic compound with good biocompatibility, non-toxic, good capsulation and film-forming properties, and is widely used in pharmaceutical, medical engineering materials and modern industrial fields.	price>

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