Innovations in Core-Shell Electrospinning: A Comprehensive Review in Recent Advances of Core-Shell Electrospun Polylactic Acid Nanocomposite Fibers for Potential Biomedical Applications [0.03%]
核壳电纺丝创新研究进展:潜在生物医学应用的核壳乳酸聚合物纳米复合纤维近期研究综述
B Akhila,V Abhijith,Mridula Sreedharan et al.
B Akhila et al.
The unique structural and functional properties of polylactic acid (PLA) nanofibers, particularly in core-shell structures, have placed them as a crucial material in biomedical engineering. In addition to its renewable characteristics, biod...
Development of Substrate-Independent Antifouling and Bactericidal Surfaces Using Visible Light Cross-Linked Hydrogel Coatings for Biomedical Applications [0.03%]
用于生物医学应用的可见光交联水凝胶涂层的开发,可在各种基材上制备防污和杀菌表面
Soonjong Roh,Se Youn Jang,Youngmee Jung et al.
Soonjong Roh et al.
Preventing biofouling and bacterial infections are pivotal issues in developing implantable biomaterials. Zwitterionic hydrogels stand out for their antifouling effects and high biocompatibility, making them ideal for biomedical application...
Rapid detection of brain tumor cells using memristors for biomedical applications [0.03%]
用于生物医学应用的基于忆阻器的快速检测脑肿瘤细胞的方法
Longhui Fu,Huangtao Chen,Bai Sun et al.
Longhui Fu et al.
Brain tumors often lead to compression or hemorrhage that can seriously threaten patients' life. However, the rapid detection of brain tumor types has always been a bottleneck technology in the field of neuroscience research. Herein, it is ...
Zhensheng Xu,Zhongwen Lei,Qiuhua Cheng et al.
Zhensheng Xu et al.
The global incidence of digestive system diseases is increasing, posing a significant public health challenge and driving an escalating demand for research into the mechanisms underlying their onset and progression. Traditional cell models ...
Review of Gelatin Hydrogel Dressings Based on Cross-Linking Technology in the Healing of Hemorrhagic Wounds: Mechanism Exploration, Application Research, and Future Perspectives [0.03%]
基于交联技术的明胶水凝胶敷料在出血性伤口愈合中的综述:机制探索、应用研究和未来展望
Jialin Wang,Jiale Mao,Jianzhuo Du et al.
Jialin Wang et al.
This review aims to highlight the biomedical applications of gelatin hemostatic hydrogels in managing cutaneous hemorrhagic wounds and provide critical insights for the development of clinically translatable hemostatic materials.
Toxicological profiles of hollow silica nanoparticles (h-SiO2) as a model for silica-coated systems: A benchmark study against NM-300K silver nanoparticles [0.03%]
空心二氧化硅纳米颗粒(h-SiO2)的毒理学特征作为二氧化硅包覆系统的模型:与NM-300K银纳米粒子进行基准对照研究
Sheena Anne H Garcia,Ping Ma,Yang Wu et al.
Sheena Anne H Garcia et al.
This calls for a reassessment of the safety profiles of silica-coated nanoparticles, particularly in biomedical applications where their interactions with biological tissues could lead to significant adverse effects.
Jiannan Gao,Hooman Barati Sedeh,Dmitrii Tsvetkov et al.
Jiannan Gao et al.
Flat optical components, or metasurfaces, have transformed optical imaging, data storage, information processing, and biomedical applications by providing unprecedented control over light-matter interactions.
Damage-resistant and body-temperature shape memory skin-mimic elastomer for biomedical applications [0.03%]
耐损伤和体温触发形状记忆仿生皮肤弹性体用于生物医学领域
Jiaxin Shi,Fei Xia,Qingchao Tu et al.
Jiaxin Shi et al.
The integration of high strength, super toughness, damage resistance, body-temperature shape memory, and biosafety into a single skin-mimic material system has been a notable challenge in the realm of material science and biomedical applica...
Living photosynthetic micro/nano-platforms: Engineering unicellular algae for biomedical applications [0.03%]
活体光合微/纳米平台:工程改造单细胞藻类用于生物医学应用
Jian Wang,Haozhe Li,Qiangfei Su et al.
Jian Wang et al.
This review comprehensively elucidates mechanistic foundations and biomedical applications of algae-based therapeutic platforms.
Combined antimicrobial and anti-inflammatory properties of electrospun PCL nanohybrids infused with metal-turmeric oleoresin and metalcurcuminoids [0.03%]
负载金属姜黄树脂和金属姜黄素的电纺PCL纳米杂化物的抗菌及抗炎协同作用
Dinithi Senanayake,Piumika Yapa,Sanduni Dabare et al.
Dinithi Senanayake et al.
This research highlights the potential of trimetallic-curcuminoid nanohybrid electrospun membranes as sustainable biomaterials for advanced antimicrobial treatments, contributing to safer and more effective biomedical applications while ensuring biocompatibility and environmental safety.
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