机译:用于通过超分子宿主 - 访客络合的病理遗址在病理遗址的局部化和持续的药物递送的生物粘附聚合物
Department of Biomedical Engineering The Chinese University of Hong Kong 999077 Hong Kong P. R. China;
Department of Biomedical Engineering The Chinese University of Hong Kong 999077 Hong Kong P. R. China;
Department of Orthopaedics and Traumatology The Chinese University of Hong Kong 999077 Hong Kong P. R. China;
Department of Biomedical Engineering The Chinese University of Hong Kong 999077 Hong Kong P. R. China;
Department of Cell Biology and Anatomy Department of Biomedical Engineering National Cheng Kung University 704007 Tainan Taiwan;
Department of Biomedical Engineering The Chinese University of Hong Kong 999077 Hong Kong P. R. China;
Department of Biomedical Engineering The Chinese University of Hong Kong 999077 Hong Kong P. R. China;
cartilage repair; host-guest complexation; polymersomes; self-assembly; stem cells; supramolecular hydrogels;
机译:用于通过超分子宿主 - 访客络合的病理遗址在病理遗址的局部化和持续的药物递送的生物粘附聚合物
机译:分子晶体中氢键网络所维持的超分子腔在水中作为客人的新型结合位点-异戊二烯基蒽衍生物对苯二酚的固态主宾络合
机译:肠肽和蛋白质递送:新型生物粘附药物载体基质屏蔽酶促发作。
机译:通过超分子宿主-客体复合物在具有苛刻酶和流体环境的病理部位进行局部和持续药物递送的生物粘附性聚合物囊泡
机译:局部和持续给药应用的控释系统
机译:在宿主-客体超分子药物递送系统中整合刺激反应特性。
机译:内部封面:用可逆照相机开窗(Chem.EUR.J.33/2016)控制Supramular Host-Guestion Assembly