机译:基于离心铸造技术的丝纤维蛋白板和螺钉的新制造方法
Nano‐Bio Regenerative Medical InstituteHallym University College of MedicineChuncheon Republic of;
Nano‐Bio Regenerative Medical InstituteHallym University College of MedicineChuncheon Republic of;
Nano‐Bio Regenerative Medical InstituteHallym University College of MedicineChuncheon Republic of;
Nano‐Bio Regenerative Medical InstituteHallym University College of MedicineChuncheon Republic of;
Nano‐Bio Regenerative Medical InstituteHallym University College of MedicineChuncheon Republic of;
Division of Otolaryngology Department of SurgeryYale School of MedicineNew Haven CT USA;
Nano‐Bio Regenerative Medical InstituteHallym University College of MedicineChuncheon Republic of;
Nano‐Bio Regenerative Medical InstituteHallym University College of MedicineChuncheon Republic of;
Department of BIN Convergence Technology Department of Polymer. Nano Science &
Technology and;
Nano‐Bio Regenerative Medical InstituteHallym University College of MedicineChuncheon Republic of;
3D printing; fixation system; fracture; silk fibroin;
机译:基于离心铸造技术的丝纤维蛋白板和螺钉的新制造方法
机译:离心流延技术制备丝素蛋白膜用于角膜组织工程
机译:制造技术在组织工程应用支架中的最终特征中的决定因素:专注于丝素蛋白的支架
机译:用冷冻干燥方法制备有机丝纤维素/多壁碳纳米管复合冷冻胶质
机译:建立接口:基于丝素蛋白的生物电子和生物光学设备在生物/非生物接口上的机理,制备和应用。
机译:冷冻铸造法制备壳聚糖丝基气管支架
机译:旋转涂层法对纯纤维素薄膜的制备与表征在基于场效应晶体管的生物传感器的应用中