生物医学用途的钛上ZrN和ta-C涂层:改善附着力、腐蚀、抗菌活性和细胞毒性

IF 0.7 4区 材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING International Journal of Materials Research Pub Date : 2023-07-24 DOI:10.1557/s43578-023-01109-3
N. Aslan, B. Aksakal, S. Cihangir, Fadime Cetin, Y. Yilmazer
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引用次数: 0

摘要

商业纯钛(CP-Ti)广泛应用于生物医学领域。然而,许多品质,包括机械强度,耐腐蚀性和耐磨性,必须建立作为植入材料的长期性能。本文研究了ZrN和ta-C(四面体非晶碳)的物理气相沉积(PVD)对CP-Ti表面性能的增强。与ta-C涂层相比,ZrN涂层在附着力、腐蚀性、显微硬度和润湿性等方面的总体效果最好,但不包括电池活力。采用大肠杆菌和金黄色葡萄球菌进行抑菌活性和MTS细胞活力实验。与α-钛相比,ZrN涂层硬度提高91%,ta-C涂层硬度提高%22。与ta-C相比,ZrN涂层具有超疏水性和优异的抗菌活性。这些发现强调了ZrN和ta-C涂层改善钛表面性能的潜力,鼓励其用于生物医学设备。
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ZrN and ta-C coatings on titanium for biomedical applications: Improved adhesion, corrosion, antibacterial activity, and cytotoxicity properties
Commercially pure titanium (CP-Ti) is extensively used in biomedical applications. However, numerous qualities, including mechanical strength, corrosion resistance, and wear resistance, must be established for long-term performance as an implant material. This study investigates the enhancement of surface properties of CP-Ti through physical vapor deposition (PVD) with ZrN and ta-C (tetrahedral amorphous carbon). Among the coatings, ZrN revealed best overall results, such as adhesion, corrosion, microhardness, and wettability, excluding cell viability when compared to ta-C. E. coli and S. aureus were employed for antibacterial activity and MTS cell viability experiments. Compared to α-titanium, hardness tests revealed 91% increase in ZrN coating, and %22 increase in ta-C coating. Super-hydrophobicity and excellent antibacterial activity were found for ZrN coatings in comparison to ta-C. These findings emphasize the potential of ZrN and ta-C coatings to improve the surface properties of titanium, encouraging it to be used in biomedical devices.
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来源期刊
CiteScore
1.30
自引率
12.50%
发文量
119
审稿时长
6.4 months
期刊介绍: The International Journal of Materials Research (IJMR) publishes original high quality experimental and theoretical papers and reviews on basic and applied research in the field of materials science and engineering, with focus on synthesis, processing, constitution, and properties of all classes of materials. Particular emphasis is placed on microstructural design, phase relations, computational thermodynamics, and kinetics at the nano to macro scale. Contributions may also focus on progress in advanced characterization techniques. All articles are subject to thorough, independent peer review.
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