M
Maneesh Chandran
Researcher at Technion – Israel Institute of Technology
Publications - 41
Citations - 605
Maneesh Chandran is an academic researcher from Technion – Israel Institute of Technology. The author has contributed to research in topics: Diamond & Chemical vapor deposition. The author has an hindex of 15, co-authored 33 publications receiving 488 citations. Previous affiliations of Maneesh Chandran include Indian Institute of Technology Madras.
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Nitrogen and hydrogen content, morphology and phase composition of hot filament chemical vapor deposited diamond films from NH3/CH4/H2 gas mixtures
TL;DR: In this paper, the phase composition, nitrogen and hydrogen content and morphology of diamond films deposited by hot filament chemical vapor deposition from NH3/CH4/H2 gas mixtures were studied.
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Trap-assisted photon-enhanced thermionic emission from polycrystalline diamond films
TL;DR: In this article, the effect of photon-enhanced thermionic electron emission (PETE) was investigated from undoped hydrogenated polycrystalline diamond (Poly-Di) film, which was deposited by hot filament chemical vapor deposition (HF CVD) method on silicon substrate.
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Formation of one-dimensional ZnO nanowires from screw-dislocation-driven two-dimensional hexagonal stacking on diamond substrate using nanoparticle-assisted pulsed laser deposition
E. Senthil Kumar,E. Senthil Kumar,Maneesh Chandran,F. Bellarmine,Ramanjaneyulu Mannam,Daisuke Nakamura,Mitsuhiro Higashihata,Tatsuo Okada,M. S. Ramachandra Rao +8 more
TL;DR: In this article, the growth of 1D ZnO nanowires on a p-type diamond substrate using nanoparticle-assisted pulsed laser deposition technique was reported, and the growth velocities at different regions of the hexagons were analyzed.
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Adhesive Microcrystalline Diamond Coating on Surface Modified Non-Carbide Forming Substrate Using Hot Filament CVD
Maneesh Chandran,C.R. Kumaran,Sriram Vijayan,Subramshu S. Bhattacharya,M. S. Ramachandra Rao +4 more
TL;DR: In this article, a method to increase the adherence of diamond coatings on copper substrates based on a surface modification process is reported, which is expected to enhance the mechanical interlocking between the substrate and diamond film and has increased the seed density and surface energy.
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Incorporation of low energy activated nitrogen onto HOPG surface: Chemical states and thermal stability studies by in-situ XPS and Raman spectroscopy
TL;DR: In this paper, the chemical states analysis of activated nitrogen incorporated highly oriented pyrolytic graphite (HOPG) surface under well-controlled conditions was performed by using X-ray photoelectron spectroscopy (XPS).