F
Filippo S. Boi
Researcher at Sichuan University
Publications - 108
Citations - 648
Filippo S. Boi is an academic researcher from Sichuan University. The author has contributed to research in topics: Carbon nanotube & Highly oriented pyrolytic graphite. The author has an hindex of 12, co-authored 91 publications receiving 509 citations. Previous affiliations of Filippo S. Boi include Queen Mary University of London.
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Boundary layer chemical vapor synthesis of self-organized radial filled-carbon-nanotube structures
TL;DR: In this article, a new chemical vapor synthesis method that exploits random fluctuations in the viscous boundary layer between a laminar vapor flow and a surface to yield a not previously observed product: radial ferromagnetically filled-carbon-nanotube structures departing from a central particle.
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Fabrication of cm scale buckypapers of horizontally aligned multiwalled carbon nanotubes highly filled with Fe3C: the key roles of Cl and Ar-flow rates
Filippo S. Boi,Filippo S. Boi,Jian Guo,Shanling Wang,Yi He,Gang Xiang,Xi Zhang,Mark Baxendale +7 more
TL;DR: It is shown that a horizontal-alignment can be achieved by tuning two main CVD parameters for a fixed dichlorobenzene concentration: the precursor-evaporation temperature and the flow rate.
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Synthesis and structure of free-standing germanium quantum dots and their application in live cell imaging
Ali Karatutlu,Ali Karatutlu,Mingying Song,Ann P. Wheeler,Osman Ersoy,William R. Little,Yuanpeng Zhang,Pascal Puech,Filippo S. Boi,Z. B. Luklinska,Andrei V. Sapelkin +10 more
TL;DR: In this article, as-prepared Ge quantum dots were suspended in cell growth medium, and then loaded into cervical carcinoma (HeLa) cells, and fluorescent microscopy images were collected using 405 nm, 488 nm, 561 nm and 647 nm wavelengths.
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Enhanced saturation magnetization in buckypaper-films of thin walled carbon nanostructures filled with Fe3C, FeCo, FeNi, CoNi, Co and Ni crystals: the key role of Cl
TL;DR: An advanced chemical vapour deposition approach is reported which allows the direct in situ synthesis of cm-length ultrathin buckypapers comprising carbon nanostructures filled with Fe3C, FeCo, FeNi, Co Ni, Co and Ni by sublimation and pyrolysis of single or combined metallocenes with very low quantities of dichlorobenzene.
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Multiwall carbon nanotubes continuously filled with micrometre-length ferromagnetic α-Fe nanowires
TL;DR: In this paper, a perturbation of a laminar ferrocene (Fe(C 5 H 5 ) 2 ) vapour flow in a conventional horizontal chemical vapour deposition reactor was used to produce carbon nanotubes filled with continuous crystalline nanowires.