Xi'an ruixi Biological Technology Co

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Catalog	name	Description	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>
R-M1-8840	Fmoc-NH-PEG(3)-DIG-OH, cas:489427-26-1	Fmoc-NH-PEG(3)-DIG-OH is a compound that includes Fmoc, an amine group, PEG(3), DIG, and a hydroxyl group. This compound could be used in peptide synthesis or bioconjugation reactions, potentially allowing for the introduction of DIG to a peptide or other biomolecules.	price>
R-M-5388	7-methoxycoumarin NHS	7-methoxycoumarin NHS from ruixi.Coumarin derivatives have excellent fluorescence properties,such as large Stokes shift,high fluorescence quantum yield and good light stability,which have been widely used in organic fluorescent small molecular materials.	price>
R-C-4723	DSPE-PEG-RINNIPWSEAMMC	1,2-distearoyl-sn-glycero-3-phosphoethanolamine-polyethylene glycol is a long circulating liposome membrane, formation of micelles in water dispersion, the critical micelle concentration (CMC) ratio of surfactant is 102 times lower, so the drug stability is better, even by hemodilution, can maintain the integrity of the micelle particle, has certain targeting, easy accumulation in solid tumors. Peptide is a compound formed by α-amino acids linked together by peptide bond,which is the intermediate product of protein hydrolysis.	price>
R-M1-8841	TCO-PEG(4)-COOH,cas1802913-21-8	TCO-PEG(4)-COOH represents a molecule combining TCO, PEG(4), and a carboxylic acid group. This molecule can potentially be used in bioconjugation reactions, such as attaching the TCO moiety to other molecules or surfaces, or for further chemical modifications through reaction with amine-containing compounds.	price>
R-M-5389	7-diethylaminocoumarin NHS	7-diethylaminocoumarin NHS from ruixi.Coumarin derivatives have excellent fluorescence properties,such as large Stokes shift,high fluorescence quantum yield and good light stability,which have been widely used in organic fluorescent small molecular materials.	price>
R-C-4724	DSPE-HYD-PEG-iRGD	DSPE-Hyd-PEG-iRGD is a PH-responsive liposome, which uses hydrazone bond to design PH-responsive nano drug micelles, and its core is composed of DOX connected by hydrazone bond. Under acidic conditions, the hydrazone bond breaks and the drug is released. When the drug carrier reaches the endosomes or lysosomes of tumor cells, acid hydrolysis will occur to release the drug, achieving the effect of targeted drug delivery.	price>
R-M1-8842	DBCO-PEG(4)-OH, cas:1416711-60-8	DBCO-PEG(4)-OH represents a molecule that combines DBCO, PEG(4), and a hydroxyl group. This molecule can potentially be used in bioconjugation reactions, such as attaching the DBCO group to other molecules or surfaces, or for further chemical modifications through reaction with functional groups like amines or carboxylic acids. The PEG spacer can enhance solubility and provide flexibility to the molecule.	price>
R-M-5390	NHS-SS-PEG-Fitc	NHS-SS-PEG-Fluorescein is one of cleavable reactive fluorescent PEG dyes offered. FITC (Fluorescein) is a bright green fluorescent dye with exication/emission wavelength at 495/515 nm. NHS (succinimidyl ester) group can react with primary amine group at alkaline pH with high efficiency. Reaction between NHS and amine allows conjugation of FITC dye to proteins, antibodies, peptides, nuleic acids and other materials quickly and easily. PEG linker between NHS and fluorescein offers better water solubility, less steric hindrance and enhanced stability.	price>
R-C-4725	DSPE-HYD-polyethylene glycol350-iRGD	DSPE-Hyd-PEG-iRGD is a PH-responsive liposome, which uses hydrazone bond to design PH-responsive nano drug micelles, and its core is composed of DOX connected by hydrazone bond. Under acidic conditions, the hydrazone bond breaks and the drug is released. When the drug carrier reaches the endosomes or lysosomes of tumor cells, acid hydrolysis will occur to release the drug, achieving the effect of targeted drug delivery.	price>

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