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Avi Bendavid
Researcher at Commonwealth Scientific and Industrial Research Organisation
Publications - 179
Citations - 5416
Avi Bendavid is an academic researcher from Commonwealth Scientific and Industrial Research Organisation. The author has contributed to research in topics: Thin film & Diamond-like carbon. The author has an hindex of 38, co-authored 169 publications receiving 4761 citations. Previous affiliations of Avi Bendavid include University of Technology, Sydney & University of New South Wales.
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Deposition and modification of titanium dioxide thin films by filtered arc deposition
TL;DR: In this paper, the influence of the depositing Ti − energy, substrate types and substrate temperature on the structure, density, mechanical and optical properties of thin films of titanium dioxide have been investigated.
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Structural, optical and electrical properties of undoped polycrystalline hematite thin films produced using filtered arc deposition
TL;DR: In this article, thin films of α -Fe 2 O 3 (hematite) were deposited using filtered arc deposition and the structural, optical and electrical properties of the films have been characterized.
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DLC coatings: effects of physical and chemical properties on biological response.
Wen J. Ma,Andrew J. Ruys,Rebecca S. Mason,Phil J. Martin,Avi Bendavid,Zongwen Liu,Mihail Ionescu,Hala Zreiqat +7 more
TL;DR: It is found that increasing surface roughness and surface energy enhanced the macrophage viability and the albumin:fibrinogen adsorption ratio, and the higher the hydrogen content for a-C:Hs deposited by PACVD, the lower the banding ratios, and Macrophage attachment.
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Structural and optical properties of titanium oxide thin films deposited by filtered arc deposition
TL;DR: In this article, the influence of the depositing Ti + energy on the structure, optical and mechanical properties of these films has been investigated, and the results of X-ray diffraction showed that with increasing substrate bias the film structure changed from an anatase to rutile phase at room temperature with the transition occurring at a depositing particle energy of about 100 eV.
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Composite Yarns of Multiwalled Carbon Nanotubes with Metallic Electrical Conductivity
TL;DR: The synthesis of metal-CNT composite yarns, which combine the unique properties of CNT yarns and nanocrystalline metals to obtain a new class of materials with enhanced electrical conductivity, is presented.