F
Francesco Mauri
Researcher at Sapienza University of Rome
Publications - 369
Citations - 83302
Francesco Mauri is an academic researcher from Sapienza University of Rome. The author has contributed to research in topics: Phonon & Graphene. The author has an hindex of 85, co-authored 352 publications receiving 69332 citations. Previous affiliations of Francesco Mauri include University of Texas at Arlington & University of California, Berkeley.
Papers
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The Raman fingerprint of rhombohedral graphite
TL;DR: In this article, the 2D Raman peak in three and four layers of multi-layer graphene with rhombohedral stacking is described and a first principles description of the peak is given.
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Theory of the thickness dependence of the charge density wave transition in 1 T-TiTe2
Jianqiang Sky Zhou,Raffaello Bianco,Lorenzo Monacelli,Ion Errea,Francesco Mauri,Matteo Calandra +5 more
TL;DR: In this paper, the authors acknowledge support from the European Union's Horizon 2020 research and innovation programme Graphene Flagship under grant agreement No 881603, and from Agence nationale de la recherche (Agente Nr-19-CE24-0028).
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Extended Czjzek model applied to NMR?parameter distributions in sodium?metaphosphate glass
Filipe Vasconcelos,Sylvain Cristol,Jean-François Paul,Laurent Delevoye,Francesco Mauri,Thibault Charpentier,Gérard Le Caër +6 more
TL;DR: The extended Czjzek model is applied to the distribution of NMR parameters of a simple glass model obtained by molecular dynamics simulations and gives new insight into the structural characterization of disordered systems by solid-state NMR.
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Quantum effects in muon spin spectroscopy within the stochastic self-consistent harmonic approximation
Ifeanyi John Onuorah,Pietro Bonfà,Roberto De Renzi,Lorenzo Monacelli,Francesco Mauri,Matteo Calandra,Ion Errea,Ion Errea,Ion Errea +8 more
TL;DR: RDR, PB and IJO also acknowledge computing resources provided by, the Swiss National Supercomputing Centre (CSCS), CINECA under Project ID IsC58, the STFC Scientific Computing Departments SCARF cluster and the HPC resources at the University of Parma, Italy as discussed by the authors.
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Quantum enhancement of charge density wave in NbS2 in the 2D limit
TL;DR: Evaluated temperature dependence of phonon spectra in NbS2 bulk and single layer as a function of pressure/strain finds excellent agreement with inelastic X-ray spectra and demonstrates the removal of charge ordering due to anharmonicity in the two-dimensional limit.