M
Matteo Mannini
Researcher at University of Florence
Publications - 139
Citations - 5675
Matteo Mannini is an academic researcher from University of Florence. The author has contributed to research in topics: Thin film & Spintronics. The author has an hindex of 35, co-authored 126 publications receiving 4899 citations. Previous affiliations of Matteo Mannini include University of Modena and Reggio Emilia.
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Journal ArticleDOI
Magnetic memory of a single-molecule quantum magnet wired to a gold surface.
Matteo Mannini,Francesco Pineider,Philippe Sainctavit,Chiara Danieli,Edwige Otero,Corrado Sciancalepore,Anna Maria Talarico,Marie-Anne Arrio,Andrea Cornia,Dante Gatteschi,Roberta Sessoli +10 more
TL;DR: The road is now open to address individual molecules wired to a conducting surface in their blocked magnetization state, thereby enabling investigation of the elementary interactions between electron transport and magnetism degrees of freedom at the molecular scale.
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Quantum tunnelling of the magnetization in a monolayer of oriented single-molecule magnets
Matteo Mannini,Francesco Pineider,Chiara Danieli,Federico Totti,Lorenzo Sorace,Philippe Sainctavit,Marie-Anne Arrio,Edwige Otero,Loïc Joly,Julio C. Cezar,Andrea Cornia,Roberta Sessoli +11 more
TL;DR: The findings prove that the quantum spin dynamics can be observed in SMMs chemically grafted to surfaces, and offer a tool to reveal the organization of matter at the nanoscale.
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Chemical strategies and characterization tools for the organization of single molecule magnets on surfaces
TL;DR: This tutorial review focuses on the first step towards single-molecule experiments, namely the organization of SMMs on surfaces, and presents characterization tools, which have been selected on the basis of their relevance to address specific points.
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Giant field dependence of the low temperature relaxation of the magnetization in a dysprosium(III)-DOTA complex.
Pierre-Emmanuel Car,Mauro Perfetti,Matteo Mannini,Annaick Favre,Andrea Caneschi,Roberta Sessoli +5 more
TL;DR: Two competing mechanisms for magnetic relaxation as well as the remarkable increase of six orders of magnitude in the relaxation time upon application of a static magnetic field were detected.
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Strong magneto-chiral dichroism in a paramagnetic molecular helix observed by hard X-rays
Roberta Sessoli,Marie-Emmanuelle Boulon,Andrea Caneschi,Matteo Mannini,Lorenzo Poggini,Fabrice Wilhelm,Andrei Rogalev +6 more
TL;DR: The spectral features of the XMχD signal differ significantly from the natural and magnetic dichroic contributions and have been here rationalized using the simple multipolar expansion of matter-radiation interaction.