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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1946 1
1947 1
1948 3
1949 3
1950 1
1951 3
1952 2
1953 2
1955 3
1956 4
1957 6
1958 5
1959 19
1960 6
1961 7
1962 10
1963 15
1964 20
1965 13
1966 7
1967 10
1968 12
1969 11
1970 11
1971 9
1972 14
1973 17
1974 24
1975 21
1976 29
1977 17
1978 20
1979 23
1980 23
1981 33
1982 34
1983 35
1984 51
1985 66
1986 75
1987 78
1988 98
1989 119
1990 120
1991 146
1992 130
1993 136
1994 164
1995 156
1996 209
1997 236
1998 233
1999 213
2000 296
2001 358
2002 432
2003 472
2004 555
2005 741
2006 835
2007 1030
2008 1116
2009 1290
2010 1519
2011 1764
2012 1864
2013 2059
2014 1885
2015 1856
2016 1799
2017 1565
2018 1483
2019 886
2020 27
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23,108 results
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Page 1
Toxicity of Nano-Titanium Dioxide (TiO2-NP) Through Various Routes of Exposure: a Review.
Shakeel M, et al. Biol Trace Elem Res 2016 - Review. PMID 26554951
Nano-titanium dioxide (TiO2) is one of the most commonly used materials being synthesized for use as one of the top five nanoparticles. ...
Nano-titanium dioxide (TiO2) is one of the most commonly used materials being synthesized for use as one of the top five nanoparticle …
Titanium Fiber Plates for Bone Tissue Repair.
Takizawa T, et al. Adv Mater 2018. PMID 29215204
In contrast, titanium fiber plates prepared by molding titanium fibers into plates by simultaneously applying compression and shear stress at normal room temperature can have an elastic modulus similar to that of bone cortex, and stress shielding will not occur even when the plate lies flush against the bone's surface. Titanium fibers can form a porous structure suitable for cell adhesion and as a bone repair scaffold. A titanium fiber plate is combined with osteoblasts and shown that the titanium fiber plate is better able to facilitate bone tissue repair than the conventional titanium plate when implanted in rat bone defects. ...
In contrast, titanium fiber plates prepared by molding titanium fibers into plates by simultaneously applying compression and …
Contemplating a role for titanium in organisms.
Zierden MR and Valentine AM. Metallomics 2016 - Review. PMID 26577470
Titanium is the ninth most abundant element in the Earth's crust and some organisms sequester it avidly, though no essential biological role has yet been recognized. This Minireview addresses how the properties of titanium, especially in an oxic aqueous environment, might make a biological role difficult to recognize. ...
Titanium is the ninth most abundant element in the Earth's crust and some organisms sequester it avidly, though no essential biologic
Functionalized titanium implant in regulating bacteria and cell response.
Jin J, et al. Int J Nanomedicine 2019. PMID 30863070 Free PMC article.
Although titanium (Ti), graphene oxide (GO) or silver (Ag) particles are suitable for biomedical implants due to their excellent cytocompatibility, bioactivity, and antibacterial properties, the exact antibacterial mechanism is not understood when the three substances are combined (Ti-GO-Ag). ...
Although titanium (Ti), graphene oxide (GO) or silver (Ag) particles are suitable for biomedical implants due to their excellent cyto …
Additive manufacturing of titanium alloys in the biomedical field: processes, properties and applications.
Trevisan F, et al. J Appl Biomater Funct Mater 2018 - Review. PMID 28967051
The mechanical properties and biocompatibility of titanium alloy medical devices and implants produced by additive manufacturing (AM) technologies - in particular, selective laser melting (SLM), electron beam melting (EBM) and laser metal deposition (LMD) - have been investigated by several researchers demonstrating how these innovative processes are able to fulfil medical requirements for clinical applications. ...
The mechanical properties and biocompatibility of titanium alloy medical devices and implants produced by additive manufacturing (AM) …
Tannin-Titanium Oxide Multilayer as a Photochemically Suppressed Ultraviolet Filter.
Son HY, et al. ACS Appl Mater Interfaces 2018. PMID 30039969
Here, we employ tannic acid (TA) as a key molecule for controlling the photochemical properties of titanium dioxide nanoparticles (TiO(2) NPs). ...
Here, we employ tannic acid (TA) as a key molecule for controlling the photochemical properties of titanium dioxide nanoparticles (Ti …
Cell responses to titanium treated by a sandblast-free method for implant applications.
Zhang J, et al. Mater Sci Eng C Mater Biol Appl 2017. PMID 28575956
NH(4)OH and H(2)O(2) mixture was used to etch titanium plates (E) and titanium bars (EB), aiming at substituting sandblast procedure. ...This is a promising treatment to titanium implant....
NH(4)OH and H(2)O(2) mixture was used to etch titanium plates (E) and titanium bars (EB), aiming at substituting sandblast pro …
Biological responses of ultrafine grained pure titanium and their sand blasted surfaces.
Günay-Bulutsuz A, et al. Mater Sci Eng C Mater Biol Appl 2018. PMID 30033268
Ultrafine grained pure titanium offers advanced mechanical properties for medical applications for most adequate materials meso/micro scaled dental implants. ...According to our results, the titanium surfaces were highly available to cell attachment and cell proliferation. The ratios of cell proliferation of cells which are attached on different titanium surfaces were dependent on the grain size and the surface roughness. ...
Ultrafine grained pure titanium offers advanced mechanical properties for medical applications for most adequate materials meso/micro …
Corrosion of titanium: Part 1: aggressive environments and main forms of degradation.
Prando D, et al. J Appl Biomater Funct Mater 2017 - Review. PMID 29131299
Titanium has outstanding corrosion resistance due to the external natural oxide protective layer formed when it is exposed to an aerated environment. Despite this, titanium may suffer different forms of corrosion in severe environments: uniform corrosion, pitting and crevice corrosion, hydrogen embrittlement, stress-corrosion cracking, fretting corrosion and erosion. ...
Titanium has outstanding corrosion resistance due to the external natural oxide protective layer formed when it is exposed to an aera
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