出版物 |
推进支架辅助原位骨软骨再生模式:从可生物降解到可生物适应的转变 |
Advancing Scaffold-Assisted Modality for In Situ Osteochondral Regeneration: A Shift From Biodegradable to Bioadaptable |
全降解镁基仿生双相支架的制备及其骨软骨一体化修复与机制研究 |
2024-09-23 |
出版物 |
聚乙二醇化共聚物组装体的接枝结构对羟基磷灰石在初始细胞和细菌粘附差异调节中的影响 |
Impact of graft architecture of PEGylated copolymers assembly on hydroxyapatite in the differential regulation of initial cell and bacterial adhesion |
全降解镁基仿生双相支架的制备及其骨软骨一体化修复与机制研究 |
2024-09-14 |
出版物 |
膦酸酯接枝聚乙二醇化共聚物在羟基磷灰石表面增强吸附稳定性和生物功能耐久性 |
Enhanced Adsorption Stability and Biofunction Durability with Phosphonate-Grafted, PEGylated Copolymer on Hydroxyapatite Surface |
全降解镁基仿生双相支架的制备及其骨软骨一体化修复与机制研究 |
2024-09-14 |
出版物 |
镁基支架通过控制Mg2+的释放促进软骨生成,消除活化巨噬细胞对软骨细胞的破坏作用 |
The beneficial potential of magnesium-based scaffolds to promote chondrogenesis through controlled Mg2+ release in eliminating the destructive effect of activated macrophages on chondrocytes |
全降解镁基仿生双相支架的制备及其骨软骨一体化修复与机制研究 |
2024-09-14 |
出版物 |
具有夹层复合涂层的镁基植入物同时促进抗菌和成骨性能 |
Mg-based implants with a sandwiched composite coating simultaneously facilitate antibacterial and osteogenic properties |
全降解镁基仿生双相支架的制备及其骨软骨一体化修复与机制研究 |
2024-09-14 |
出版物 |
调整全气候钠离子电池的电解质和表面间化学性质 |
Tuning the Electrolyte and Interphasial Chemistry for All-Climate Sodium-ion Batteries |
基于准(全)固-固反应的高比能锂硫电池的关键技术研究 |
2024-09-08 |
出版物 |
卤化锂固体电解质中增强的相关迁移引发的超离子电导率 |
Superionic Conductivity Invoked by Enhanced Correlation Migration in Lithium Halides Solid Electrolytes |
基于准(全)固-固反应的高比能锂硫电池的关键技术研究 |
2024-09-08 |
出版物 |
利用具有驯服不对称反应的水电池实现能量存储和二氧化碳转化的一体化 |
Integrated energy storage and CO2 conversion using an aqueous battery with tamed asymmetric reactions |
基于准(全)固-固反应的高比能锂硫电池的关键技术研究 |
2024-09-08 |
出版物 |
用于高压钠离子电池的具有驯化电极相间的电解质工程 |
Electrolyte Engineering with Tamed Electrode Interphases for High-Voltage Sodium-Ion Batteries |
基于准(全)固-固反应的高比能锂硫电池的关键技术研究 |
2024-09-08 |
出版物 |
溶液-固体转化化学使超快充电和长寿命熔盐铝电池成为可能 |
A solution-to-solid conversion chemistry enables ultrafast-charging and long-lived molten salt aluminium batteries |
基于准(全)固-固反应的高比能锂硫电池的关键技术研究 |
2024-09-07 |