Michael Canva
Université de Sherbrooke
174 Papers
1.4K Citations
Michael Canva is an academic researcher from Université de Sherbrooke. The author has contributed to research in topics: Surface plasmon resonance & Surface plasmon. The author has an hindex of 32, co-authored 168 publications. Previous affiliations of Michael Canva include École Polytechnique & University of Central Florida.
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Papers
Perylene- and pyrromethene-doped xerogel for a pulsed laser
Michael Canva,Patrick Georges,Jean-François Perelgritz,Alain Brum,Frédéric Chaput,Jean-Pierre Boilot +5 more
TL;DR: Hydrophobic photostable dye molecules such as perylenes or pyrromethenes were trapped in xerogel matrices and used as solid-state dye lasers to demonstrate efficient laser operation.
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One hundred spots parallel monitoring of DNA interactions by SPR imaging of polymer-functionalized surfaces applied to the detection of cystic fibrosis mutations
Nathalie Bassil,Emmanuel Maillart,Michael Canva,Yves Levy,Marie-Claude Millot,Serge Pissard,Rémy Narwa,Michel Goossens +7 more
TL;DR: The specific response of the system is established along with the possibility of discriminating between a totally complementary sequence and its mutant form, even for a single base mismatch thus demonstrating the capacity of parallel diagnostic using patient like material.
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Reverse saturable absorption in solid xerogel matrices
Florian F. L. Bentivegna,Michael Canva,Patrick Georges,Alain Brun,Frederic Chaput,Laurent Malier,Jean-Pierre Boilot +6 more
TL;DR: In this paper, the reverse saturable absorption properties of these doped xerogels have been compared to those of reference solutions of Aluminophthalocyanine (APC) and fullerene carbon 60 (C60).
Hybrid Plasmonic Mode by Resonant Coupling of Localized Plasmons to Propagating Plasmons in a Kretschmann Configuration
Mitradeep Sarkar,Mondher Besbes,Julien Moreau,Jean-François Bryche,Aurore Olivéro,Grégory Barbillon,Anne-Lise Coutrot,Bernard Bartenlian,Michael Canva +8 more
TL;DR: In this article, the authors have numerically studied an array of metallic nanocylinders, which can sustain Localized Surface Plasmons (LSP), but the excitation wavelengths of the LSP are not tunable due to their limited dispersion.
Hydrophilic Mechano-Bactericidal Nanopillars Require External Forces to Rapidly Kill Bacteria.
Amin Valiei,Nicholas Lin,Jean-François Bryche,Geoffrey McKay,Michael Canva,Paul G. Charette,Dao Nguyen,Dao Nguyen,Christopher Moraes,Nathalie Tufenkji +9 more
TL;DR: These studies provide fundamental physical insight into how nanopillar surfaces can serve as effective antibacterial materials, and suggest use-conditions under which such nanotechnology approaches may provide practical value.
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