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Follow on Google News | Biopharma PEG Provides Multi-arm PEG Derivatives Crosslinked Into HydrogelsPEG is readily synthesized by the living anionic ring-opening polymerization of ethylene oxide; well-defined (low polydispersity) In order to form hydrogels, PEG must be cross-linked. PEG was nonspecifically cross-linked using ionizing radiation. PEG hydrogels are now commonly synthesized by covalent cross-linking of PEG macromers with reactive chain ends. At present, PEG has been widely used as hydrogels, and it is expected that future application prospects will also be quite broad. Biopharma PEG provides high-quality activated multi-arm PEG derivatives including 4-arm and 8-arm PEG products as following with special structures which can be crosslinked into degradable PEG hydrogels (https://www.biochempeg.com/ 4-ArmPEG-SG are high quality multi-arm PEG derivatives with succinimidyl ester at each terminal of the four arms, which can be crosslinked into degradable PEG hydrogels. PEG hydrogels have a variety of applications in medical devices and regenerative medicine, and are especially of interest for controlled release of drugs, for 2D and 3D cell culture, and for wound sealing and healing. 4-arm PEG-SS is a high-quality multi-arm PEG derivative with succinimidyl succinate at each terminal of the four arms connected to one pentaerythritol core. It can be crosslinked into degradable PEG hydrogels which can be used in medical devices and regenerative medicine. 8-Arm PEG-SG is a multiarmed PEG derivative with succinimidyl NHS ester groups at each terminal of the eight arms connected to one hexaglycerol core, which can be crosslinked into degradable PEG hydrogels. PEG hydrogels have a variety of applications in medical devices and regenerative medicine, and are especially of interest for controlled release of drugs, for wound sealing and healing. 8-arm PEG-SS derivatives can be cross-linked into degradable PEG hydrogels. It is a cleavable PEG linker. The cleavable ester linker between PEG and NHS ester enables the feature of degradable hydrogels, which can be used in medical devices and regenerative medicine, and are especially of interest for controlled release of drugs, for 2D and 3D cell culture. End
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