研究领域
- 暂无内容
论文成果 MORE+
- · Nanoscale precipitations in deformed dilute alloying Mg-Zn-Gd alloy.Materials and Design.2020
- · The beneficial potential of magnesium-based scaffolds to promote chondrogenesis through controlled Mg2+ release in eliminating the destructive effect of activated macrophages on chondrocytes.Biomaterials Advances.2022
- · The beneficial potential of magnesium-based scaffolds to promote chondrogenesis through controlled Mg2+ release in eliminating the destructive effect of activated macrophages on chondrocytes.Biomaterials Advances.2022
- · Fatigue and dynamic biodegradation behavior of additively manufactured Mg scaffolds.ACTA BIOMATERIALIA.2021
- · Medical Additive Manufacturing: From a Frontier Technology to the Research and Development of Products.Engineering.2020
- · Medical Additive Manufacturing: From a Frontier Technology to the Research and Development of Products.Engineering.2020
- · Comparative assessment of the biocompatibility and degradation behavior of Zn-3Cu and JDBM alloys used for biliary surgery.AMERICAN JOURNAL OF TRANSLATIONAL RESEARCH.2020
- · Incorporating Copper to Biodegradable Magnesium Alloy Vascular Stents via a Cu(II)-Eluting Coating for Synergistic Enhancement in Prolonged Durability and Rapid Re-Endothelialization.ADVANCED FUNCTIONAL MATERIALS.2022
- · 锶对挤压态二元锌锶合金显微组织、力学性能及体外降解行为的影响.中国有色金属学报:英文版.2020
- · Fabrication and characterization of biodegradable Zn-Cu-Mn alloy micro-tubes and vascular stents: Microstructure, texture, mechanical properties and corrosion behavior.Acta Biomaterialia.2022
专利
著作成果
科研项目 MORE+
- · 多功能MgH2/胶原蛋白复合海绵研发与临床应用 -2026/12/01
- · 基于3D增材制造技术的力学适配生物活性个性化钛植入器械研发-2023/12/01
- · 可降解镁基涂层等4项知识产权转让-2029/01/01
- · “生物体内可降解高强韧耐蚀镁合金内植入材料(ZL201010204719.9))”等2项发明专利权-2022/10/01
- · 大段骨缺损再生修复用全降解镁合金骨组织工程支架相关的关键科学问题研究-2026/12/01
- · 国家重要科技项目上海市地方匹配资金项目-2022/10/01
- · 载PTX可控释放涂层可降解铝镁合金骨内填充支架修复骨肿瘤骨缺损的研究-2014/12/01
- · 基于3D增材制造技术的力学适配生物活性个性化钛植入器械研发-2023/12/01
- · 可降解骨内植物用镁合金研发及其性能研究-2014/12/01
- · 新型可降解镁合金螺钉治疗单纯内踝骨折的临床观察研究(申康)-2019/12/01