Product block-copolymer-custom-synthetic-block-copolymer

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Catalog	name	Description	price
R-M2-9465	PAMAM G5-CY5	Applications of CY5-PAMAM Generation 5/Cyanine5-Polyamidoamine Generation 5: Fluorescent Imaging: This conjugate can be used in biological imaging applications, allowing researchers to visualize biomolecules or cells in live samples due to CY5 fluorescent properties. Drug Delivery: The structure of dendrimer allows for encapsulation or attachment of therapeutic agents or nucleic acids, enabling targeted delivery and controlled release. Biosensors: CY5-PAMAM can be integrated into biosensing platforms to enhance detection sensitivity and specificity due to its fluorescent signal response. Gene Delivery: PAMAM dendrimers are known carriers for genetic materials (like DNA or RNA). The conjugation of CY5 adds a fluorescent marker that aids in tracking and quantifying the delivery process in cellular studies. Diagnostics: In vitro and in vivo diagnostic applications can benefit from the bright fluorescence of CY5 for detecting specific biological markers.	price>
R-C-5460	PAMAM-CY5.5/NRGTEWD	PAMAM dendrimers are commonly used in drug delivery and imaging applications due to their stability, biocompatibility, and the ability to encapsulate or bind cargoes.Cyanine5.5 is a fluorescent dye that emits in the near-infrared (NIR) region. It is commonly employed in biomedical imaging techniques such as fluorescence microscopy, in vivo imaging, and optical imaging.	price>
R-C-5462	PAMAM-CY5.5	PAMAM dendrimers are commonly used in drug delivery and imaging applications due to their stability, biocompatibility, and the ability to encapsulate or bind cargoes.Cyanine5.5 is a fluorescent dye that emits in the near-infrared (NIR) region. It is commonly employed in biomedical imaging techniques such as fluorescence microscopy, in vivo imaging, and optical imaging.	price>
R-C-7052	Biotin-PNIPAM80k-SH	Biotin-Poly(N-isopropylacrylamide)-Thiol,Biotin-PNIPAM80k-SH is a functionalized polymer that binds biotin,poly (N-isopropylacrylamide)(PNIPAM,molecular weight 80kDa),and thiol,exhibiting temperature sensitivity and biospecific binding ability.	price>
R-C-5477	PAMAM-PEG-PDEA	PAMAM dendrimers are highly branched, tree-like polymers that possess a core molecule with amine functionalities and add more branches and amine groups as generations increase.PAMAM-mPEG-PDEA conjugates have been explored for their potential in various biomedical applications, including targeted and controlled drug delivery, due to their unique combination of properties and the ability to respond to stimuli such as temperature changes.	price>
R-C-5478	Polyethylenimine(PEI) MW:2K CAS:25987-06-8	Polyethylenimine is a cationic polymer containing a large number of nitrogen atoms,which usually has a highly branched structure.It has good solubility,adsorption,and reducibility,and has important functions in many applications.	price>
R-C-7073	PNIPAAm(56kd)-FITC	PNIPAAm-FITC,Poly(N-isopropyl acrylamide)(PNIPAM)with fluorescein is a fluorescent polymer commonly used in sensing applications.Fluorescein is incorporated into the polymer chain through copolymerization with acrylamide monomers.	price>
R-C-7074	PNIPAAm(56kDa)-COOH	PNIPAAm-COOH,PNIPAAm poly(N-isopropylacrylamide)is a substance with an extremely unique molecular structure.The isopropyl group on its molecule is a strongly hydrophobic group,while the amide bond is a highly hydrophilic group, with strong hydrogen bonding ability in aqueous phase.	price>
R-C-7075	PNIPAAm2K-DG(d ipotassium g lycy rrhizina te)	PNIPAAm-dipotassium glycyrrhizinate(DG)is a functionalized material that combines thermosensitive polymer PNIPAAm with DG(d ipotassium g lycy rrhizina te).It has temperature responsiveness and anti-inflammatory activity,and is suitable for drug delivery and biomedical fields.	price>
R-C-7094	PAMAM G3-FITC	FITC-PAMAM G3,PAMAM-G3(third-generation polyamide amine branched polymer)is a polymer material with a dense branching structure,commonly used in biomedical fields such as drug delivery and gene transfection.Its surface contains a large number of amino groups(NH2),which can be chemically modified to introduce fluorescent labels(such as FITC)for cell imaging or biosensor development.	price>

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