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8arm PEG Vinylsulfone (tripentaerythritol)

产品代号:

8ARM(TP)-PEG-VS

产品纯度:

≥ 90%

包装规格:

1g, 10g, 100g等(特殊包装需收取分装费用)

分子量:

10000Da, 20000 Da等

产品咨询:

科研客户小批量一键采购地址(小于5克)

  • 产品描述
  • 参考文献
  •   键凯科技提供高品质八臂聚乙二醇乙烯砜(三季戊四醇核))产品,产品取代率≥90%。

      键凯科技的盐酸盐8臂PEG乙烯砜(三季戊四醇)衍生物可以交联成可降解的PEG水凝胶。以三聚季戊四醇为核聚合而成的8ARM(TP)-PEG原料比以六聚甘油为核聚合而成的8ARM-PEG具有分散度低,分子量更精确的优势。PEG水凝胶在医疗设备及再生医学中具有多种应用,尤其适用于药物缓释、2D与3D细胞培养及伤口的密封与愈合等领域。

      键凯科技提供分装服务,需要收取分装费用,如果您需要分装为其他规格请与我们联系。

      键凯科技同时提供其他分子量的8ARM(TP)-VS-20K产品,如你需要请与我司sales@jenkem.com联系。

      键凯科技提供大批量生产产品及GMP级别产品,如需报价请与我们联系。

     

  •   References:

      1. Tomaszewski, C.E., et al., Adipose-derived stem cell-secreted factors promote early stage follicle development in a biomimetic matrix, Biomaterials science, 2019.

      2. De Rutte, J.M., et al., Scalable High‐Throughput Production of Modular Microgels for In Situ Assembly of Microporous Tissue Scaffolds, Advanced Functional Materials, 2019.

      3. Day, J.R., et al., The impact of functional groups of poly(ethylene glycol) macromers on the physical properties of photo-polymerized hydrogels and the local inflammatory response in the host, Acta Biomaterialia, 2018, 67, P. 42-52.

      4. Manzoli, V., et al., Immunoisolation of murine islet allografts in vascularized sites through conformal coating with polyethylene glycol, American Journal of Transplantation, 2018, 18(3):590-603.

      5. Aguilar, V.M., et al., Microcontact-Printed Hydrogel Microwell Arrays for Clonal Muscle Stem Cell Cultures, InSkeletal Muscle Development, 2017, p. 75-92.

      6. Cook, C.D., et al., Local remodeling of synthetic extracellular matrix microenvironments by co-cultured endometrial epithelial and stromal cells enables long-term dynamic physiological function, Integrative Biology, 2017.

      7. Valdez, J., et al., On-demand dissolution of modular, synthetic extracellular matrix reveals local epithelial-stromal communication networks, Biomaterials, 2017, v. 130, p. 90-103.

      8. Steele, A.N., et al., A novel protein‐engineered hepatocyte growth factor analog released via a shear‐thinning injectable hydrogel enhances post‐infarction ventricular function, Biotechnology and Bioengineering, 2017.

      9. Zhou, W., et al., Tuning the Mechanical Properties of Poly(Ethylene Glycol) Microgel-Based Scaffolds to Increase 3D Schwann Cell Proliferation, Macromol. Biosci., 2016.

      10. Kim, J., et al., Characterization of the crosslinking kinetics of multi-arm poly(ethylene glycol) hydrogels formed via Michael-type addition, Soft Matter, 2016.

      11. Kim, J., et al., Synthetic hydrogel supports the function and regeneration of artificial ovarian tissue in mice, Regenerative Medicine, 2016, 1:16010.

      12. Rosales, A.M., et al., Photoresponsive Elastic Properties of Azobenzene-Containing Poly(ethylene-glycol)-Based Hydrogels, Biomacromolecules, 2015.

      13. Allazetta, S., et al., Microfluidic Synthesis of Cell-Type-Specific Artificial Extracellular Matrix Hydrogel, Biomacromolecules, 2013, 14(4), p: 1122-1131.

           14. Tomaszewski, C. E., et al., Sequestered cell-secreted extracellular matrix proteins improve murine folliculogenesis and oocyte maturation for fertility preservation, Acta Biomaterialia, 2021.

           15、Below, C.R., et al., A microenvironment-inspired synthetic three-dimensional model for pancreatic ductal adenocarcinoma organoids. Nature materials, 2022, 21(1).

           16.Babu, S., et al., How do the Local Physical, Biochemical, and Mechanical Properties of an Injectable Synthetic Anisotropic Hydrogel Affect Oriented Nerve Growth?. Advanced Functional Materials. 2022.

           17. Gnecco, JS, et al., Organoid co-culture model of the cycling human endometrium in a fully-defined synthetic extracellular matrix reveals epithelial-stromal crosstalk. BioRxiv. 2022.

           18.Gnecco, J.S., et al., Organoid co-culture model of the human endometrium in a fully synthetic extracellular matrix enables the study of epithelial-stromal crosstalk, Med, 4(8), 2023.

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