G
Giancarlo Canavese
Researcher at Polytechnic University of Turin
Publications - 106
Citations - 3429
Giancarlo Canavese is an academic researcher from Polytechnic University of Turin. The author has contributed to research in topics: Piezoresistive effect & Thin film. The author has an hindex of 30, co-authored 101 publications receiving 2662 citations. Previous affiliations of Giancarlo Canavese include Istituto Italiano di Tecnologia.
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Flexible piezoelectric energy nanogenerator based on ZnO nanotubes hosted in a polycarbonate membrane
Stefano Stassi,Valentina Alice Cauda,Carminna Ottone,Carminna Ottone,Angelica Chiodoni,Candido Pirri,Candido Pirri,Giancarlo Canavese +7 more
TL;DR: In this article, high-oriented zinc oxide (ZnO) nanotubes were synthesized in a porous polycarbonate (PC) matrix, leading to a highly flexible ZnO-PC composite able to work as efficient energy nanogenerator.
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Length‐Dependent Charge Generation from Vertical Arrays of High‐Aspect‐Ratio ZnO Nanowires
Vivian Farías Rivera,Vivian Farías Rivera,Florian Auras,Paolo Motto,Stefano Stassi,Stefano Stassi,Giancarlo Canavese,Edvige Celasco,Thomas Bein,Barbara Onida,Valentina Alice Cauda +10 more
TL;DR: The generated charge and the electrical behavior of the ZnO nanowires are strictly dependent on the nanowire length, and the importance of controlling the morphological properties of such ZnNO nanostructures for optimizing a nanogenerator device is shown.
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Spiky nanostructured metal particles as filler of polymeric composites showing tunable electrical conductivity
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Enhanced biostability and cellular uptake of zinc oxide nanocrystals shielded with a phospholipid bilayer.
Bianca Dumontel,Marta Canta,Hanna Engelke,Angelica Chiodoni,Luisa Racca,Andrea Ancona,Tania Limongi,Giancarlo Canavese,Giancarlo Canavese,Valentina Alice Cauda,Valentina Alice Cauda +10 more
TL;DR: A novel lipid bilayer assembly is developed to shield ZnO nanocrystals improving their stability and cell internalization.
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Integration of microfluidic and cantilever technology for biosensing application in liquid environment
Carlo Ricciardi,Giancarlo Canavese,Riccardo Castagna,Ivan Ferrante,Alessandro Ricci,Simone Luigi Marasso,Lucia Napione,Federico Bussolino +7 more
TL;DR: The realization and optimization of a microcantilever-based Lab-on-Chip is reported, showing that microplates rather than microbeams exhibit largest mass sensitivity in liquid, while pirex rather than polymers represents the best choice for microfluidic channels.