Product block-copolymer-plga-peg

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Catalog	name	Description	price
R-C-4680	PLGA-pp-PEG	Poly(lactic-co-glycolic acid)-polyethylene glycol Copolymer-Use in drug delivery, controlled release, drug formulation,tissue scaffolding,implant,self-assembled nanoparticles. Biodegradable polymers have tunable hydrolytic stability and degradability from weeks to years depending on molecular weight,lactide to glycolide ratio.	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-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-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-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-C-4758	PLGA-PEG-RB	Poly(L-lactide-co-glycolide)-Polyethylene glycol-Rhodamine B can be used to prepare new targeting products such as micelles or vesicles. The active group at the end of the product can link some modified peptides, proteins, carbohydrates, folate or antibodies, so that it has active targeting effect	price>
R-C-4759	PLGA-PEG350-Rhodamine B	Poly(L-lactide-co-glycolide)-Polyethylene glycol-Rhodamine B can be used to prepare new targeting products such as micelles or vesicles.The active group at the end of the product can link some modified peptides,proteins,carbohydrates,folate or antibodies, so that it has active targeting effect	price>
R-C-4760	PLGA-Polyethylene glycol550-RB	Poly(L-lactide-co-glycolide)-Polyethylene glycol-Rhodamine B can be used to prepare new targeting products such as micelles or vesicles.The active group at the end of the product can link some modified peptides,proteins,carbohydrates, folate or antibodies, so that it has active targeting effect	price>
R-C-4761	Rhodamine B-PEG750-PLGA	Poly(L-lactide-co-glycolide)-Polyethylene glycol-Rhodamine B can be used to prepare new targeting products such as micelles or vesicles. The active group at the end of the product can link some modified peptides, proteins, carbohydrates, folate or antibodies, so that it has active targeting effect	price>
R-C-4800	HA-PLGA	1,2-Distearoyl-sn-glycero-3-phosphoethanolamine is a synthetic phospholipids, which act as membrane materials, are solubilized and suitable for developing liposomes and phospholipid complexes.hyaluronic acid can actively target CD44 receptors overexpressed by various tumor cells, and improve the efficiency of nanodrug delivery to tumor sites.	price>

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