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| 文献清单:”生物材料的先进合成技术”方向|Journal of Functional Biomaterials (JFB) |
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期刊名:Journal of Functional Biomaterials
期刊主页:https://www.mdpi.com/journal/jfb
Journal of Functional Biomaterials(JFB, ISSN 2079-4983) 是一个国际性的跨学科开放性获取期刊。JFB期刊发表有关生物医学材料应用的原创性研究文章和评论文章。期刊的重点关注生物材料的物理化学特性及其在组织中的相互作用,以及生物材料在医学设备和生理环境中的制备、性能和应用等相关研究。我们诚挚邀请您一同探索JFB期刊”生物材料的先进合成技术”方向发表的高质量文章。我们相信,这一合集将成为该领域研究者的重要资源。期刊所有文章均为开放获取,您可以免费且无限制地阅读全部出版内容。
1、Biaxial Flexural Strength and Vickers Hardness of 3D-Printed and Milled 5Y Partially Stabilized Zirconia
3D打印和铣削5Y部分稳定氧化锆的双轴弯曲强度和维氏硬度
http://www.mdpi.com/2079-4983/16/1/36
Hetzler, S.; Hinzen, C.; Rues, S.; Schmitt, C.; Rammelsberg, P.; Zenthöfer, A. Biaxial Flexural Strength and Vickers Hardness of 3D-Printed and Milled 5Y Partially Stabilized Zirconia.J. Funct. Biomater.2025,16, 36.
2、Green Synthesis of Gold Nanoparticles Using Liquiritin and Other Phenolics from Glycyrrhiza glabra and Their Anti-Inflammatory Activity
利用甘草苷和其他酚类化合物绿色合成金纳米粒子及其抗炎活性
https://www.mdpi.com/2079-4983/15/4/95
Eltahir, A.O.E.; Lategan, K.L.; David, O.M.; Pool, E.J.; Luckay, R.C.; Hussein, A.A. Green Synthesis of Gold Nanoparticles Using Liquiritin and Other Phenolics fromGlycyrrhiza glabraand Their Anti-Inflammatory Activity.J. Funct. Biomater.2024,15, 95.
3、3D Printing of a Porous Zn-1Mg-0.1Sr Alloy Scaffold: A Study on Mechanical Properties, Degradability, and Biosafety
多孔Zn-1Mg-0.1Sr合金支架的3D打印:力学性能、降解性和生物安全性研究
https://www.mdpi.com/2079-4983/15/4/109
Cao, X.; Wang, X.; Chen, J.; Geng, X.; Tian, H. 3D Printing of a Porous Zn-1Mg-0.1Sr Alloy Scaffold: A Study on Mechanical Properties, Degradability, and Biosafety.J. Funct. Biomater.2024,15, 109.
4、Comparison of Key Properties of Ag-TiO2and Hydroxyapatite-Ag-TiO2Coatings on NiTi SMA
镍钛形状记忆合金上Ag-TiO2和羟基磷灰石-Ag-TiO2涂层的关键性能比较
https://www.mdpi.com/2079-4983/15/9/264
Dudek, K.; Strach, A.; Wasilkowski, D.; Losiewicz, B.; Kubisztal, J.; Mrozek-Wilczkiewicz, A.; Ziola, P.; Barylski, A. Comparison of Key Properties of Ag-TiO2and Hydroxyapatite-Ag-TiO2Coatings on NiTi SMA. J.Funct. Biomater.2024,15, 264.
5、The Effect of Surface Functionalization of Magnesium Alloy on Degradability, Bioactivity, Cytotoxicity, and Antibiofilm Activity
镁合金表面功能化对其降解性、生物活性、细胞毒性和抗生物膜活性的影响
https://www.mdpi.com/2079-4983/16/1/22
Nocchetti, M.; Piccinini, M.; Pietrella, D.; Antognelli, C.; Ricci, M.; Di Michele, A.; Jalaoui, L.; Ambrogi, V. The Effect of Surface Functionalization of Magnesium Alloy on Degradability, Bioactivity, Cytotoxicity, and Antibiofilm Activity.J. Funct. Biomater.2025,16,22.
6、Electrophoretic Deposition of Chitosan Coatings on the Porous Titanium Substrate
壳聚糖涂层在多孔钛基材上的电泳沉积
https://www.mdpi.com/2079-4983/15/7/190
Flesińska, J.; Szklarska, M.; Matula, I.; Barylski, A.; Golba, S.; Zajac, J.; Gawlikowski, M.; Kurtyka, P.; Ilnicka, B.; Dercz, G. Electrophoretic Deposition of Chitosan Coatings on the Porous Titanium Substrate.J. Funct. Biomater.2024,15, 190.
7、Spheroid-Exosome-Based Bioprinting Technology in Regenerative Medicine
球状体-外泌体生物打印技术在再生医学中的应用
https://www.mdpi.com/2079-4983/15/11/345
Lee, H.-Y.; Lee, J.W. Spheroid-Exosome-Based Bioprinting Technology in Regenerative Medicine.J. Funct. Biomater.2024,15, 345.
8、Personalized 3D-Printed Prostheses for Bone Defect Reconstruction After Tumor Resection in the Foot and Ankle
用于足踝肿瘤切除后骨缺损重建的个性化3D打印假体
https://www.mdpi.com/2079-4983/16/2/62
Yon, C.-J.; Choi, B.-C.; Lee, J.-M.; Lee, S.-W. Personalized 3D-Printed Prostheses for Bone Defect Reconstruction After Tumor Resection in the Foot and Ankle.J. Funct. Biomater.2025,16, 62.
9、Integrating Machine Learning into Additive Manufacturing of Metallic Biomaterials: A Comprehensive Review
将机器学习集成到金属生物材料增材制造中:一项综合综述
https://www.mdpi.com/2079-4983/16/3/77
Zhao, S.; Shi, Y.; Huang, C.; Li, X.; Lu, Y.; Wu, Y.; Li, Y.; Wang, L. Integrating Machine Learning into Additive Manufacturing of Metallic Biomaterials: A Comprehensive Review.J. Funct. Biomater.2025,16, 77.
10、Advancements in Musculoskeletal Tissue Engineering: The Role of Melt Electrowriting in 3D-Printed Scaffold Fabrication
肌肉骨骼组织工程进展:熔融电泳写入技术在3D打印支架制造中的作用
http://www.mdpi.com/2079-4983/16/5/163
Ranat, K.; Phan, H.; Ellythy, S.; Kenter, M.; Akkouch, A. Advancements in Musculoskeletal Tissue Engineering: The Role of Melt Electrowriting in 3D-Printed Scaffold Fabrication.J. Funct. Biomater.2025,16, 163.
11、New 3D Printed Scaffolds Based on Walstromite Synthesized by Sol–Gel Method
基于溶胶-凝胶法合成的瓦尔斯特罗米特的新型3D打印支架
http://www.mdpi.com/2079-4983/15/1/19
Chiriac, S.; Popescu, R.-C.; Pele, M.-M.; Ghitulica, C.-D.; Cucuruz, A.; Geanaliu-Nicolae, R.-E.; Stancu, I.-C.; Voicu, G.; Ciocan, L.-T. New 3D Printed Scaffolds Based on Walstromite Synthesized by Sol–Gel Method.J. Funct. Biomater.2024,15, 19.
12、Electrospun Silk-ICG Composite Fibers and the Application toward Hemorrhage Control
静电纺丝丝素蛋白-ICG复合纤维及其在止血中的应用
http://www.mdpi.com/2079-4983/15/9/272
Siddiqua, A.; Clutter, E.; Garklavs, O.; Kanniyappan, H.; Wang, R.R. Electrospun Silk-ICG Composite Fibers and the Application toward Hemorrhage Control.J. Funct. Biomater.2024,15, 272.
13、Electrospinning Enables Opportunity for Green and Effective Antibacterial Coatings of Medical Devices
静电纺丝技术为医疗器械的绿色高效抗菌涂层提供了契机
http://www.mdpi.com/2079-4983/16/7/249
Caporalini, S.; Azimi, B.; Zergat, S.; Ansari Chaharsoughi, M.; Maleki, H.; Batoni, G.; Danti, S. Electrospinning Enables Opportunity for Green and Effective Antibacterial Coatings of Medical Devices.J. Funct. Biomater.2025,16, 249.
14、An Anti-Oxidative Bioink for Cartilage Tissue Engineering Applications
用于软骨组织工程应用的抗氧化生物墨水
http://www.mdpi.com/2079-4983/15/2/37
Chen, X.; Yang, M.; Zhou, Z.; Sun, J.; Meng, X.; Huang, Y.; Zhu, W.; Zhu, S.; He, N.; Zhu, X.; et al. An Anti-Oxidative Bioink for Cartilage Tissue Engineering Applications.J. Funct. Biomater.2024,15, 37.
15、Schiff Base-Crosslinked Tetra-PEG-BSA Hydrogel: Design, Properties, and Multifunctional Functions
席夫碱交联的四聚乙二醇-牛血清白蛋白水凝胶:设计、性能和多功能性
http://www.mdpi.com/2079-4983/16/2/69
Qu, Y.; Li, J.; Jia, X.; Yin, L. Schiff Base-Crosslinked Tetra-PEG-BSA Hydrogel: Design, Properties, and Multifunctional Functions.J. Funct. Biomater.2025,16, 69.
期刊会议
The 2nd InternationalOnline Conference on Functional Biomaterials
由 MDPIJournal of Functional Biomaterials(ISSN 2079-4983, Impact Factor 5.2) 主办的第二届国际功能生物材料线上会议(IOCFB 2026)将于2026年7月8–10日在线举行。为吸引更多高质量研究成果参与交流,经组委会决定,摘要投稿截止日期延期至 2026年4月6日。
会议聚焦功能性生物材料前沿研究,涵盖牙科与骨科材料、抗菌表面、组织工程与再生医学、生物打印、药物递送、智能响应材料等多个专题方向。大会设有口头报告与海报展示两种形式。所有被接收摘要将展示于会议官网,优秀成果有机会角逐会议奖项,线上 Poster Gallery 持续开放互动。诚邀相关领域学者积极投稿,共同推动功能生物材料领域的创新与合作。
复制链接到浏览器进入投稿通道
https://sciforum.net/user/submission/create/1511
会议主题:
S1. 牙科生物材料
S2. 骨生物材料
S3. 抗菌生物材料及表面
S4. 组织工程与再生医学生物材料
S5. 药物递送生物材料与治疗
S6. 用于医疗保健的生物材料与植入式器械
S7. 生物制造和生物打印材料
S8. 响应性/智能生物材料
欢迎对本次会议或IOCFB系列会议感兴趣的学者通过会议主页上的“Subscribe”功能进行订阅,以便及时获取最新的会议动态。
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https://sciforum.net/event/IOCFB2026?section=#registration
早鸟注册截止日期:2026年5月6日
摘要投稿截止日期:2026年4月6日
摘要接收通知日期:2026年4月27日
投稿指南
1. 所有提交摘要需为全英文;
2. 摘要应包括引言、方法、结果和结论部分,长度约为200-300字;
3. 摘要须为原创研究成果,未曾在任何期刊或会议上发表,否则不予接受;
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