产品简称:4-arm PEG-SH CAS no.:
| CAS no. | 分子量(Mp) | 产品编码 |
| 2,000 | 06020701302 | |
| 5,000 | 06020701306 | |
| 10,000 | 06020701309 | |
| 20,000 | 06020701312 | |
| 40,000 | 06020701315 |
相关文献:
1. Lo YW, Sheu MT, Chiang WH, et al. In situ chemically crosslinked injectable hydrogels for the subcutaneous delivery of trastuzumab to treat breast cancer. Acta Biomater. 2019;86:280-290. doi:10.1016/j.actbio.2019.01.003
2. Chen Z, Cai Z, Zhu C, et al. Injectable and Self-Healing Hydrogel with Anti-Bacterial and Anti-Inflammatory Properties for Acute Bacterial Rhinosinusitis with Micro Invasive Treatment. Adv Healthc Mater. 2020;9(20):e2001032. doi:10.1002/adhm.202001032
3. Li D, Lv P, Fan L, et al. The immobilization of antibiotic-loaded polymeric coatings on osteoarticular Ti implants for the prevention of bone infections. Biomater Sci. 2017;5(11):2337-2346. doi:10.1039/c7bm00693d
4. Yang WJ, Xu W, Tao X, et al. Two-stage thiol-d click reactions for the preparation and adhesion of hydrogels. Polymer Chemistry. 2020;11(17):2986-2994. dio:10.1039/c9py01503e
5. Wang N, Chen J, Chen Y, et al. Kneadable Dough-type hydrogel transforming from dynamic to rigid network to repair irregular bone Defects [J]. Bioactive Materials, 2024, 40: 430–444.
6. Si, J., Ishikawa, S., Nepal, S. et al. Osteogenic differentiation capabilities of multiarm PEG hydrogels: involvement of gel–gel-phase separation in cell differentiation. Polym J 57, 407–417 (2025). https://doi.org/10.1038/s41428-024-00955-0
7. Cho, R., Kamata, H., Tsuji, Y. et al. Optimizing a self-solidifying hydrogel as an endoscopically deliverable hydrogel coating system: a proof-of-concept study on porcine endoscopic submucosal dissection-induced ulcers. Polym J 56, 855–863 (2024). https://doi.org/10.1038/s41428-024-00921-w
8. Winkelbauer M, Hasenauer A, Rütsche D, et al. Rapid Deep Vat Printing Using Photoclickable Collagen-d Bioresins. Adv Healthc Mater. Published online July 4, 2025. doi:10.1002/adhm.202405105
9. Nepal S, Si J, Ishikawa S, et al. Injectable phase-separated tetra-armed poly(ethylene glycol) hydrogel scaffold allows sustained release of growth factors to enhance the repair of critical bone defects. Regen Ther. 2023;25:24-34. Published 2023 Nov 25. doi:10.1016/j.reth.2023.11.008
10. Zhou C, Sun M, Wang D, et al. In Vitro Antibacterial and Anti-Inflammatory Properties of Imidazolium Poly(ionic liquids) Microspheres Loaded in GelMA-PEG Hydrogels. Gels. 2024;10(4):278. Published 2024 Apr 20. doi:10.3390/gels10040278
11. Xu Z, Lu J, Lu D, et al. Rapidly damping hydrogels engineered through molecular friction. Nat Commun. 2024;15(1):4895. Published 2024 Jun 8. doi:10.1038/s41467-024-49239-4
12. Ishikawa S, Kamata H, Sakai T. Enhancing cell adhesion in synthetic hydrogels via physical confinement of peptide-functionalized polymer clusters. J Mater Chem B. 2024;12(29):7103-7112. Published 2024 Jul 24. doi:10.1039/d4tb00761a
13. Wang N, Chen J, Chen Y, et al. Kneadable Dough-type hydrogel transforming from dynamic to rigid network to repair irregular bone Defects [J]. Bioactive Materials, 2024, 40: 430–444.
14. Si, J., Ishikawa, S., Nepal, S. et al. Osteogenic differentiation capabilities of multiarm PEG hydrogels: involvement of gel–gel-phase separation in cell differentiation. Polym J 57, 407–417 (2025). https://doi.org/10.1038/s41428-024-00955-0
15. Cho, R., Kamata, H., Tsuji, Y. et al. Optimizing a self-solidifying hydrogel as an endoscopically deliverable hydrogel coating system: a proof-of-concept study on porcine endoscopic submucosal dissection-induced ulcers. Polym J 56, 855–863 (2024). https://doi.org/10.1038/s41428-024-00921-w
16. Winkelbauer M, Hasenauer A, Rütsche D, et al. Rapid Deep Vat Printing Using Photoclickable Collagen-d Bioresins. Adv Healthc Mater. Published online July 4, 2025. doi:10.1002/adhm.202405105
17. Nepal S, Si J, Ishikawa S, et al. Injectable phase-separated tetra-armed poly(ethylene glycol) hydrogel scaffold allows sustained release of growth factors to enhance the repair of critical bone defects. Regen Ther. 2023;25:24-34. Published 2023 Nov 25. doi:10.1016/j.reth.2023.11.008
18. Zhou C, Sun M, Wang D, et al. In Vitro Antibacterial and Anti-Inflammatory Properties of Imidazolium Poly(ionic liquids) Microspheres Loaded in GelMA-PEG Hydrogels. Gels. 2024;10(4):278. Published 2024 Apr 20. doi:10.3390/gels10040278
19. Xu Z, Lu J, Lu D, et al. Rapidly damping hydrogels engineered through molecular friction. Nat Commun. 2024;15(1):4895. Published 2024 Jun 8. doi:10.1038/s41467-024-49239-4
20. Ishikawa S, Kamata H, Sakai T. Enhancing cell adhesion in synthetic hydrogels via physical confinement of peptide-functionalized polymer clusters. J Mater Chem B. 2024;12(29):7103-7112. Published 2024 Jul 24. doi:10.1039/d4tb00761a
关键词:
4-arm Poly(ethylene glycol) thiol
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