F
Francesca Leonardi
Researcher at Institute of Cost and Management Accountants of Bangladesh
Publications - 35
Citations - 1620
Francesca Leonardi is an academic researcher from Institute of Cost and Management Accountants of Bangladesh. The author has contributed to research in topics: Field-effect transistor & Organic electronics. The author has an hindex of 16, co-authored 34 publications receiving 1283 citations. Previous affiliations of Francesca Leonardi include University of Bologna & Autonomous University of Barcelona.
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Self-assembled monolayers in organic electronics
TL;DR: This work aims to review the strategy behind the design and use of self-assembled monolayers in organic electronics, discuss the mechanism of interaction of SAMs in a microscopic device, and highlight the applications emerging from the integration ofSAMs in an organic device.
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Organic field-effect transistor for label-free dopamine sensing
TL;DR: In this article, a potentiometric sensor based on Electrolyte-Gated Organic Field Effect Transistor (EGOFET) was proposed for detection of dopamine in the presence of a self-assembled monolayer composed by cysteamine and 4-formylphenyl boronic acid.
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Water-gated organic field effect transistors – opportunities for biochemical sensing and extracellular signal transduction
Tobias Cramer,Alessandra Campana,Francesca Leonardi,Stefano Casalini,Adrica Kyndiah,Mauro Murgia,Fabio Biscarini +6 more
TL;DR: This review introduces an emerging class of organic transistors, in which the current across the organic film is gated by the electric field of the Debye-Helmholtz layer, and discusses the device physics, the sensing mechanism and the relevant electrochemical processes.
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Electrochemical Functionalization of Graphene at the Nanoscale with Self-Assembling Diazonium Salts
Zhenyuan Xia,Francesca Leonardi,Marco Gobbi,Yi Liu,Vittorio Bellani,Andrea Liscio,Alessandro Kovtun,Rongjin Li,Xinliang Feng,Emanuele Orgiu,Paolo Samorì,Emanuele Treossi,Vincenzo Palermo +12 more
TL;DR: This paper describes a fast and versatile method to functionalize high-quality graphene with organic molecules by exploiting the synergistic effect of supramolecular and covalent chemistry, and works with many carbon-based materials including graphene deposited on silicon, plastic, and quartz.
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Multiscale Sensing of Antibody–Antigen Interactions by Organic Transistors and Single-Molecule Force Spectroscopy
Stefano Casalini,Andra C. Dumitru,Francesca Leonardi,Carlo Augusto Bortolotti,Elena T. Herruzo,Alessandra Campana,Rafael Furlan de Oliveira,Rafael Furlan de Oliveira,Tobias Cramer,Ricardo Garcia,Fabio Biscarini +10 more
TL;DR: This work shows that specific recognition events in multiscale biosensors can be assessed, quantified, and optimized by means of a nanoscale technique.