PCL在医学领域中被广泛应用于药物递送、组织工程、医用包装等方面。CMCS-g-PCL是将羧甲基壳聚糖和聚己内酯通过接枝共聚反应连接在一起形成的共聚物。这种共聚物可能具有羧甲基壳聚糖和聚己内酯的性质,比如水溶性、生物降解性以及可调控的药物释放特性。因此,CMCS-g-PCL可能在药物递送、组织工程、生物医学材料等领域具...
RGD-PEG-SS-PEG-PAMAM;PEG-DMTK-SS-PLA;支化赖氨酸Lys-PEG-b-PCL;PSGMA-b-PMAPEG;PCL-b-PHEAA;mPEG-PLA-Mpeg;PEI-g-PEG;MPEG-SS-2SA,MPEG-SS-TPGS;mPEG-SS-PTX;mPEG-SS-DOX;mPEG-SS-PLA-SS-PEI;mPEG-SS-PEI;mPEG-SS-Pleu;mPEG-SS-NH-g-PHAsp-CPT;mPEG-SS-NH-g-PHAsp;mPEG-SS-P(...
的硫化铋纳米粒子(5nm);hemin-NHS;D-甘露糖-香豆素;NHS-PEG2-双硒键-PEG2-NHS;PEG-PUSe-PEG;4-硝基苯酚-cy7;CHOL-PEG2000-NAcPGP;半胱氨酸-FITC;DOTA-YHWYGYTPQNVI多肽;DOTA-HYPYAHPTHPSW多肽;Acrylate-PEG2000-NTA;PCL-Hyd腙键-PEG-DOTA;PLL-FITC 荧光素标记聚赖氨酸;PCL-PEG-酪氨酸;PCL-PEG-...
PCL has a functional group similar to PU [19], which has been proven to be an ideal reinforcer and toughener for PU electrospun membranes. Poly(L-lactide-co-caprolactone) (PLCL) is formed by the random copolymerization of lactic acid and caprolactone, which has a comparable structure with ...