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8arm PEG Thiol (hexaglycerol)

产品代号:

8ARM-PEG-SH

产品纯度:

≥ 90%

包装规格:

1g, 10g, 100g等(特殊包装需收取分装用度)

分子量:

10000Da, 20000 Da等

产品征询:

科研客户幼批量一键采购地址(幼于5克)

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  • 产品描述
  • 参考文件

  •   welcome-球速体育科技提供高品质八臂聚乙二醇巯基产品,取代率≥ 95% 。

      welcome-球速体育科技的8臂巯基产品可交联造备PEG水凝胶产品 。PEG水凝胶在医疗器械和再生医学方面尤其是在药物的缓释控释,2维和3维细胞造就以及伤口的缝合和愈合方面有极度宽泛的利用 。welcome-球速体育的8臂PEG原料来通过三聚季戊四醇和乙氧基聚合而成,每个PEG链的乙氧基单元数量不是齐全一样的 。welcome-球速体育的多臂PEG产品的分子量指的是各臂分子量的总和 。

    产品编码

    产品代号

    A8004

    8ARM-SH-10K

    A8007

    8ARM-SH-20K

      welcome-球速体育科技提供8ARM-SH分子量 10000Da, 20000 Da产品 1克和10克包装 。

      welcome-球速体育科技提供分装服务,必要收取分装用度,若是您必要分装为其他规格请与我们联系 。

      welcome-球速体育科技同时提供其他分子量的8ARM-SH产品,如你必要请与我司sales@jenkem.com联系 。

      welcome-球速体育科技提供大批量出产产品及GMP级别产品,如需报价请与我们联系 。

     

  •   References:

      1. Rao, V.V., et al., Rescuing mesenchymal stem cell regenerative properties on hydrogel substrates post serial expansion, Bioengineering & translational medicine, 2019.

      2. Brown, T.E., et al., Photopolymerized dynamic hydrogels with tunable viscoelastic properties through thioester exchange, Biomaterials, 2018.

      3. Aziz, A.H., et al., Mechanical characterization of sequentially layered photo-clickable thiol-ene hydrogels, Journal of the Mechanical Behavior of Biomedical Materials, 2017, V. 65, p. 454-465.

      4. Huynh, C.T., et al., Cytocompatible Catalyst-free Photodegradable Hydrogels for Light-Mediated RNA Release to Induce hMSC Osteogenisis. ACS Biomaterials Science & Engineering, 2017.

      5. Suma, T., et al., Modulated Fragmentation of Proapoptotic Peptide Nanoparticles Regulates Cytotoxicity. J. Am. Chem. Soc., 2017, 139(11):4009-18.

      6. Liang, Y., et al., Controlled release of an anthrax toxin-neutralizing antibody from hydrolytically degradable polyethylene glycol hydrogels, Journal of Biomedical Materials Research Part A, 2016, V. 104:1, p. 113–123.

      7. Lee, S., et al., Effects of the poly(ethylene glycol) hydrogel crosslinking mechanism on protein release, Biomater. Sci., 2016.

      8. Huynh, C.T., et al., Light-triggered RNA release and induction of hMSC osteogenesis via photodegradable, dual-crosslinked hydrogels. Nanomedicine, 2016.

      9. Shih, H., et al., Photo-click hydrogels prepared from functionalized cyclodextrin and poly(ethylene glycol) for drug delivery and in situ cell encapsulation, Biomacromolecules, 2015.

      10. Nguyen, M.K., et al., Sustained localized presentation of RNA interfering molecules from in situ forming hydrogels to guide stem cell osteogenic differentiation. Biomaterials, 2014, 35(24), p. 6278-6286.

      11. Lee, S., et al., The effects of varying poly(ethylene glycol) hydrogel crosslinking density and the crosslinking mechanism on protein accumulation in three-dimensional hydrogels, Acta Biomaterialia, 2014, 10(10), p. 4167–4174.

           12.Wilson, RL, et al, Protein-functionalized poly (ethylene glycol) hydrogels as scaffolds for monolayer organoid culture. Tissue Engineering Part C: Methods. 2021, 27(1):12-23.

           13.Castilho, M., et l., Hydrogel-based bioinks for cell electrowriting of well-organized living structures with micrometer-scale resolution. Biomacromolecules. 2021, 22(2):855-66.

           14.McKee, C, et al., Transcriptomic analysis of na?ve human embryonic stem cells cultured in three-dimensional PEG scaffolds. Biomolecules. 2021, 11(1):21.

           15.Su, Q., et al., Facile preparation of a metal-phenolic network-based lymph node targeting nanovaccine for antitumor immunotherapy, Acta Biomaterialia, V. 158, 2023, P. 510-524.

           16.Pham-Nguyen, O.V, et al., Complete breakdown of copper-free clickable doxorubicin nanoclusters for real-time tumor proliferation tracking, Chemical Engineering Journal, 468, 2023.

           17.Wan, W., et l., TGF-β1 promotes osteogenesis of mesenchymal stem cells via integrin mediated mechanical positive autoregulation, iScience, 2024, v. 27, I7. Keywords: Mechanobiology; Biological sciences; Cell biology; Mathematical biosciences; 8-arm PEG maleimide; 8-arm PEG thiol 

          18. Bahou, C., et al., Hydrogel Cross-Linking via Thiol-Reactive Pyridazinediones, Biomacromolecules 2023 24 (11), 4646-4652

          19. Castilho, M., et al., Hydrogel-Based Bioinks for Cell Electrowriting of Well-Organized Living Structures with Micrometer-Scale Resolution, Biomacromolecules 2021 22 (2), 855-866

          20. Hu, P., et al., Tumor microenvironment-responsive cascaded nanozyme-based composite hydrogel for multi-modility synergistic therapies in cancer treatment, Chemical Engineering Journal, 507, 2025.  

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