Cold atmospheric plasma jet applied for TiO2/carbon fiber composite biomaterial

IF 1.1 4区 物理与天体物理 Q4 PHYSICS, APPLIED Laser and Particle Beams Pub Date : 2020-11-10 DOI:10.1017/s0263034620000403
Limin Li, Zhiwei Li, Qinqin Zhou, Xiuxiang Huang, Ke Peng
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引用次数: 2

Abstract

In the present work, Titanium dioxide (TiO2) micro–nanostructured thin films are deposited by a cold atmospheric plasma jet on carbon fiber substrates. The surface morphology, grain size, and structure phase of TiO2 thin films are investigated by scanning electron microscopic (SEM), X-ray diffraction (XRD), and Raman spectrum. As the discharge voltage increased from 5 to 15 kV, the size of these TiO2 particles decreased from 2 to 3 μm to less than 1 μm. The XRD and Raman spectroscopic results show TiO2 on the carbon fiber surface prepared by atmospheric plasma jet is at the mixture phase of anatase and rutile. We also investigated the adhesion and proliferation assays of MC3T3-E1 preosteoblasts on the samples. The surface with smaller TiO2 particles deposited on carbon fiber is more appropriate for attachment of preosteoblasts. Furthermore, the highest proliferation of MC3T3-E1 was found on a sample with smaller TiO2 particles after incubation. Our data suggest that the increased roughness fosters cell attachment and proliferation on the surface of TiO2/carbon fibers.
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冷常压等离子体射流在TiO2/碳纤维复合生物材料中的应用
在本工作中,采用冷大气等离子体射流在碳纤维衬底上沉积二氧化钛(TiO2)微纳米结构薄膜。采用扫描电镜(SEM)、x射线衍射(XRD)和拉曼光谱(Raman spectrum)研究了TiO2薄膜的表面形貌、晶粒尺寸和结构相。当放电电压从5 ~ 15 kV升高时,TiO2颗粒尺寸从2 ~ 3 μm减小到小于1 μm。XRD和拉曼光谱结果表明,大气等离子体射流制备的碳纤维表面TiO2处于锐钛矿和金红石的混合相。我们还研究了MC3T3-E1成骨前细胞在样品上的粘附和增殖试验。碳纤维表面沉积的TiO2颗粒越小,越适合成骨前细胞的附着。此外,MC3T3-E1在TiO2颗粒较小的样品上的增殖率最高。我们的数据表明,粗糙度的增加促进了细胞在TiO2/碳纤维表面的附着和增殖。
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来源期刊
Laser and Particle Beams
Laser and Particle Beams PHYSICS, APPLIED-
CiteScore
1.90
自引率
11.10%
发文量
25
审稿时长
1 months
期刊介绍: Laser and Particle Beams is an international journal which deals with basic physics issues of intense laser and particle beams, and the interaction of these beams with matter. Research on pulse power technology associated with beam generation is also of strong interest. Subjects covered include the physics of high energy densities; non-LTE phenomena; hot dense matter and related atomic, plasma and hydrodynamic physics and astrophysics; intense sources of coherent radiation; high current particle accelerators; beam-wave interaction; and pulsed power technology.
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