Study of the surface characteristics of magnetron‐sputter calcium phosphate coatings

Wolke, Joop G.C.; Dijk, K. van; Schaeken, H. G.; Groot, K. de; Jansen, John A.

doi:10.1002/jbm.820281213

Cited by 233 publications

(114 citation statements)

References 17 publications

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“…An RF power of 150 W resulted in an HA thin film that including both characteristics from the RF powers of 200 W and 250 W. This clearly indicated that the relative intensities of the XRD pattern depend on the processing conditions, which explains why a preferred orientation could result from a specific RF power. Wolke showed that a film coated at an RF power of 700 W had characteristics of the (002) preferred orientation when a sample rotation was applied [6]. In our study, the HA coating processed with sample rotation resulted in a preferred orientation when an RF power of 250 W was applied, and the coating process therefore led to an HA thin film with a characteristic in the preferred orientation, which was highly affected by the sample rotation and RF power.…”

Section: Resultssupporting

confidence: 46%

“…HA-coating via RF magnetron sputtering leads to uniformity in the chemical composition and density of the film. The preferred orientation and the amorphous properties of the thin films can be determined by adjusting the processing conditions during RF magnetron sputtering [6,7]. For example, the amorphous HA films can be transformed to crystalline thin films by heating, further increasing the spread of human osteoblast cells.…”

Section: Introductionmentioning

confidence: 99%

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RF Magnetron Sputtering Coating Of Hydroxyapatite On Alkali Solution Treated Titanate Nanorods

Lee¹,

Shin²

2015

Archives of Metallurgy and Materials

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Hydroxyapatite (HA) is a material with outstanding biocompatibility. It is chemically similar to natural bone tissue, and has therefore been favored for use as a coating material for dental and orthopedic implants. In this study, RF magnetron sputtering was applied for HA coating. And Alkali treatment was performed in a 5 M NaOH solution at 60• C. The coated HA thin film was heat-treated at a range of temperatures from 300 to 600• C. The morphological characterization and crystal structures of the coated specimens were then obtained via FE-SEM, XRD, and FT-IR. The amorphous thin film obtained on hydrothermally treated nanorods transformed into a crystalline thin film after the heat treatment. The change in the phase transformation, with an enhanced crystallinity, showed a reduced wettability. The hydrothermally treated nanorods with an amorphous thin film, on the other hand, showed an outstanding wettability. The HA thin film perpendicularly coated the nanorods in the upper and inner parts via RF magnetron sputtering, and the FT-IR results confirmed that the molecular bonding of the coated film had an HA structure.

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Section: Resultssupporting

confidence: 46%

Section: Introductionmentioning

confidence: 99%

RF Magnetron Sputtering Coating Of Hydroxyapatite On Alkali Solution Treated Titanate Nanorods

Lee¹,

Shin²

2015

Archives of Metallurgy and Materials

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“…Films were deposited in a custom-built sputter deposition chamber at room temperature. This technique shows strong HA titanium bonding associated with outward diffusion of titanium into the HA layer, forming TiO 2 at the interface (Wolke et al, 1994).…”

Section: Sputter Depositionmentioning

confidence: 99%

Dental Implant Surface Enhancement and Osseointegration

Anil¹,

Anand²,

Alghamdi³

et al. 2011

Implant Dentistry - A Rapidly Evolving Practice

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“…The final sur face roughness of these FA-HA coatings was Ra = 9.59 |im. Further, of the implants with a diameter of 4.0 mm, 18 were left uncoated (cpTi) and 18 were provided with an amorphous Ca-P (Ca-P-a) coating using a radiofrequency (rf) magnetron sputter process (van Dijk et al 1995a(van Dijk et al , 1995bWolke et al 1994). These implants were not gritblasted, but were argon-etched before sputter coat ing.…”

Section: Implant Materials and Coating Characteristicsmentioning

confidence: 99%

Initial interfacial healing events around calcium phosphate (Ca‐P) coated oral implants

Hulshoff

Jansen

1997

Clinical Oral Implants Res

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The bone response to different calcium phosphate (Ca‐P) coated and non‐coated titanium implants was evaluated in a goat animal model. Two types of Ca‐P coatings have been investigated: an experimental plasma‐spray bi‐layered Ca‐P coating (FA‐HA) and an amorphous RF magnetron sputter coating (Ca‐P‐a). Fifty‐four conical screw shaped implants were inserted in the lateral and medial femoral condyles of 18 Saanen goats. After implantation periods of 3, 12 and 24 days, the bone‐implant interface was evaluated histologically and histomorphometrically. Light microscopical evaluation revealed that bone formation on the Ca‐P coated implants proceeded faster. At 24 days higher percentages of bone contact were measured for both Ca‐P coated implants than for non‐coated implants. However, this difference was only significant for the FA‐HA coated implants. On basis of these findings. we concluded that Ca‐P coatings show improved bone response due to an initial difference in bone cell response.

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Study of the surface characteristics of magnetron‐sputter calcium phosphate coatings

Cited by 233 publications

References 17 publications

RF Magnetron Sputtering Coating Of Hydroxyapatite On Alkali Solution Treated Titanate Nanorods

RF Magnetron Sputtering Coating Of Hydroxyapatite On Alkali Solution Treated Titanate Nanorods

Dental Implant Surface Enhancement and Osseointegration

Initial interfacial healing events around calcium phosphate (Ca‐P) coated oral implants

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