期刊
NPJ MATERIALS DEGRADATION
卷 6, 期 1, 页码 -出版社
NATURE PORTFOLIO
DOI: 10.1038/s41529-022-00270-0
关键词
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资金
- Hungarian Research Grant NFKI (Budapest, Hungary) [125244]
- International Visegrad Fund (Bratislava, Slovakia) [22020140]
- University of La Laguna [2022/0000586]
- Spanish Ministry of Science, Innovation and Universities (Madrid, Spain) [2022/0000586]
Titanium and its alloys have been widely used in clinical applications due to their excellent biocompatibility and chemical stability. Recent research has shown the need for further optimization, despite their ability to achieve passive state quickly and maintain stability in physiological environments.
Titanium and its alloys have been widely used for clinical applications because of their biocompatibility and exceptional chemical inertness, in addition to their outstanding osseointegration characteristics. They are well known to form a robust protective film on the surface that provides a high corrosion resistance with the surrounding environment. Although this passive state of titanium-based materials is often considered to be achieved very rapidly, even when damaged, and to be chemically stable in physiological environments, evidences of passivity breakdown and electron transfer reactions have been collected using high resolution microelectrochemical techniques. Thus, further optimizations are required for their forthcoming applications.
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