S
Stefania Rapino
Researcher at University of Bologna
Publications - 71
Citations - 2550
Stefania Rapino is an academic researcher from University of Bologna. The author has contributed to research in topics: Scanning electrochemical microscopy & Self-assembled monolayer. The author has an hindex of 23, co-authored 62 publications receiving 1942 citations. Previous affiliations of Stefania Rapino include European Institute of Oncology & Université de Namur.
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Journal ArticleDOI
Efficient water oxidation at carbon nanotube–polyoxometalate electrocatalytic interfaces
Francesca M. Toma,Andrea Sartorel,Matteo Iurlo,Mauro Carraro,Pietro Parisse,Chiara Maccato,Stefania Rapino,Benito Rodriguez Gonzalez,Heinz Amenitsch,Tatiana Da Ros,Loredana Casalis,Andrea Goldoni,Massimo Marcaccio,Gianfranco Scorrano,Giacinto Scoles,Francesco Paolucci,Maurizio Prato,Marcella Bonchio +17 more
TL;DR: The bioinspired electrode addresses the one major challenge of artificial photosynthesis, namely efficient water oxidation, which brings us closer to being able to power the planet with carbon-free fuels.
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Single Cell Electrochemiluminescence Imaging: From the Proof-of-Concept to Disposable Device-Based Analysis
Giovanni Valenti,Sabina Scarabino,Bertrand Goudeau,Andreas Lesch,Milica Jović,Elena Villani,Milica Sentic,Stefania Rapino,Stéphane Arbault,Francesco Paolucci,Neso Sojic +10 more
TL;DR: The development of coreactant-based electrogenerated chemiluminescence (ECL) as a surface-confined microscopy to image single cells and their membrane proteins should find promising applications in ultrasensitive single cell imaging assays.
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Surface-Confined Electrochemiluminescence Microscopy of Cell Membranes.
Silvia Voci,Bertrand Goudeau,Giovanni Valenti,Andreas Lesch,Milica Jović,Stefania Rapino,Francesco Paolucci,Stéphane Arbault,Neso Sojic +8 more
TL;DR: A surface-confined microscopy based on electrochemiluminescence (ECL) that allows to image the plasma membrane of single cells at the interface with an electrode, and is a dynamic technique that reflects the transport properties through the cell membranes and not only the specific labeling of the membranes.
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Insights into the mechanism of coreactant electrochemiluminescence facilitating enhanced bioanalytical performance
Alessandra Zanut,Alessandra Zanut,Andrea Fiorani,Andrea Fiorani,Sofia Canola,Toshiro Saito,Nicole Ziebart,Stefania Rapino,Sara Rebeccani,Antonio Barbon,Takashi Irie,Hans-Peter Josel,Fabrizia Negri,Massimo Marcaccio,Michaela Windfuhr,Kyoko Imai,Giovanni Valenti,Francesco Paolucci +17 more
TL;DR: An ECL generation mechanism near the electrode surface is identified, which is exploited in combination with the use of branched amine coreactants to improve the ECL signal beyond the state-of-the-art immunoassays.
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Mechanochemistry : targeted delivery of single molecules
Anne-Sophie Duwez,Stéphane Cuenot,Christine Jérôme,Sabine Gabriel,Robert Jérôme,Stefania Rapino,Francesco Zerbetto +6 more
TL;DR: The atomic force microscope (AFM), which has been used extensively to investigate the stretching of individual molecules, can deliver and immobilize single molecules, one at a time, on a surface.