E. Milella
Institute of Molecular and Cell Biology
19 Papers
101 Citations
E. Milella is an academic researcher from Institute of Molecular and Cell Biology. The author has contributed to research in topics: X-ray photoelectron spectroscopy & Scanning electron microscope. The author has an hindex of 13, co-authored 19 publications.
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Papers
The influence of titania/hydroxyapatite composite coatings on in vitro osteoblasts behaviour.
TL;DR: TiO2/HA coatings resulted to be bioactive owing to the presence of hydroxyl groups detected on their surface that promote the calcium and phosphate precipitation and improve the interactions with osteoblastic cells.
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Preparation and characterisation of titania/hydroxyapatite composite coatings obtained by sol-gel process.
TL;DR: A titania network encapsulating a hydroxyapatite particulate phase is proposed as a bioceramic composite coating that was chemically clean, homogeneous, rough, porous, with a low thickness and well-defined phase composition as well as a good adhesion to the substrate.
260
Comparative investigation of the surface properties of commercial titanium dental implants. Part I: chemical composition
C. Massaro,P. Rotolo,F. De Riccardis,E. Milella,Alessandro Napoli,M. Wieland,Marcus Textor,Nicholas D. Spencer,Donald M. Brunette +8 more
TL;DR: The experimental findings are believed to make a contribution to a better understanding of the interplay between industrial fabrication procedure and physico-chemical implant surface properties.
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Surface and biological evaluation of hydroxyapatite-based coatings on titanium deposited by different techniques.
TL;DR: The in vitro cell-culture studies using MG63 osteoblast-like cells demonstrated the ability of cells to proliferate on the materials tested, and the sol-gel coating promotes higher cell growth, greater alkaline phosphatase activity, and greater osteocalcin production compared to the sputtered and plasma-sprayed coatings.
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Monitoring of NH3 gas by LB polypyrrole-based SAW sensor
TL;DR: In this article, surface acoustic wave (SAW) devices have been fabricated and tested as sensors of NH3 in gaseous phase Polypyrrole films, prepared by Langmuir-Blodgett (LB) technique, have been deposited onto the surface of SAW devices as gas absorbent layers.
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