Profilo personale

Emmanuele Cappelluti

Le informazioni pubblicate in questa pagina sono gestite in completa autonomia da EMMANUELE CAPPELLUTI il/la quale se ne assume ogni responsabilità

Sono attualmente ricercatore dell'Istituto di Struttura della Materia (ISM), CNR, presso la sede di Trieste (Sincrotrone Elettra)

Aree di interesse:

electron-phonon interaction; high-Tc superconductivity; nonadiabatic theory of superconductivity and normal state; strongly correlated electron systems; magnetic and lattice instabilities; fullerenes; copper oxides; pnictides; magnesium diborides and related compounds; low dimensional materials; graphenes; dichalcogenides; spin-orbit interaction and spintronics; supersolidity and quantum solids strain engineering Research activity

Main interest of my research activity is the investigation of the many-body problems in solid state physics. Many-body effects in this field are indeed common to a large variety of phenomena related to the electron-lattice and to the electron-electron interaction. Large part of my activity in the last years has focused on the study of the high-Tc superconductivity, not only in cuprates, but also in fullerides, MgB2 alloys and graphitic-like compounds. My work is mainly based on the analytical techniques of Quantum Field Theory in Condensed Matter, but I have also an operative knowledge of numerical techniques. At the same time, the investigation of the basilar properties of paradigmatic theoretical models (Holstein, Hubbard, t-J, . . . ) is also accompanied by a strong interest towards the investigation and the explanation of the specific properties of real materials. Along this line I acknowledge and enjoy fruitful cooperations with computational (DFT, DMFT...) and experimental groups. Recent work has mainly focused on superconductivity in iron-based pnictides, and on the electronic, transport and optical properties of graphene and two-dimensional systems.


Contatti

Telefono: 0039-040-3756494
Recapito: Istituto di Struttura della Materia (ISM), CNR, Q2 Building, Area di Ricerca Basovizza, Trieste

Esperienze lavorative

Research Scientist
Datore di lavoro: CNR - Consiglio Nazionale delle Ricerche
Frequenza: 2004 - oggi

Visiting Scientist Marie-Curie Fellowship
Datore di lavoro: ICMM-CSIC
Frequenza: 2011 - 2013

Brilliant Young Researcher Grant
Datore di lavoro: "Enrico Fermi" Center of Rome
Frequenza: 2002 - 2004

PostDoc
Datore di lavoro: Universita' La Sapienza
Frequenza: 2000 - 2002

Assegnista PostDoc
Datore di lavoro: INFM
Frequenza: 1999 - 2000


Formazione

Dottore in Fisica
Dottorato
University of Stuttgart (GE)
Area disciplinare: fisica
Data conseguimento: 1999-04-22

Fisica
Laurea (Vecchio Ordinamento)
Università degli Studi di Roma La Sapienza - P.le A. Moro 2, 00185 Rome
Area disciplinare: fisica
Votazione: 110/110 cum Laude
Data conseguimento: 1994-10-27


Lingue

Produzione Comprensione
Scritta Orale Scritta Orale Note
Italiano - Conoscenza madrelingua o bilingue
Inglese - Conoscenza professionale
Spagnolo - Conoscenza professionale

2 anni (2011-2013) di visiting scientist presso Instituto de Ciencia de Materiales de Madrid (ICMM), Consejo Superior de Investigaciones Cientificas (CSIC)


Competenze

COPPER OXIDES
ELECTRON-PHONON INTERACTION
FULLERENES
GRAPHENES
HIGH-TC SUPERCONDUCTIVITY
LOW DIMENSIONAL MATERIALS
MAGNESIUM DIBORIDES AND RELATED COMPOUNDS
MAGNETIC AND LATTICE INSTABILITIES
PNICTIDES
SPIN-ORBIT INTERACTION AND SPINTRONICS
STRONGLY CORRELATED ELECTRON SYSTEMS
SUPERSOLIDITY AND QUANTUM SOLIDS
TRANSITION METAL DICHALCOGENIDES

Research activities classification (ERC)

CHEMICAL PHYSICS
CHEMISTRY OF CONDENSED MATTER
CONDENSED MATTER PHYSICS: STRUCTURE, ELECTRONIC PROPERTIES, FLUIDS, NANOSCIENCES
ELECTRICAL AND ELECTRONIC ENGINEERING: SEMICONDUCTORS, COMPONENTS, SYSTEMS
ELECTRO-OPTICS
ELECTRONIC PROPERTIES OF MATERIALS AND TRANSPORT
LATTICE DYNAMICS
MAGNETISM
MECHANICAL AND ACOUSTICAL PROPERTIES OF CONDENSED MATTER
MESOSCOPIC PHYSICS
MICRO- AND NANOELECTRONICS, OPTOELECTRONICS
NANOPHYSICS: NANOELECTRONICS, NANOPHOTONICS, NANOMAGNETISM
NEW MATERIALS: OXIDES, ALLOYS, COMPOSITE, ORGANIC-INORGANIC HYBRID, NANOPARTICLES
PHASE TRANSITIONS, PHASE EQUILIBRIA
PHYSICAL SCIENCES AND ENGINEERING
SEMICONDUCTORS, MATERIAL GROWTH, PHYSICAL PROPERTIES
SOLID STATE MATERIALS
SPINTRONICS
STRUCTURAL PROPERTIES OF MATERIALS
STRUCTURE OF SOLIDS AND LIQUIDS
SUPERCONDUCTIVITY
SUPERFLUIDS
SURFACE SCIENCE AND NANOSTRUCTURES
THIN FILMS
TRANSPORT PROPERTIES OF CONDENSED MATTER

Prodotti della ricerca

Luciano Pietronero, Lilia Boeri, Emmanuele Cappelluti, Luciano Ortenzi

Conventional/unconventional superconductivity in high-pressure hydrides and beyond: insights from theory and perspectives

(2018) in Quantum Studies : Mathematics and Foundations Online
Martella C.; Mennucci C.; Lamperti A.; Cappelluti E.; de Mongeot F.B.; Molle A.

Designer Shape Anisotropy on Transition-Metal-Dichalcogenide Nanosheets

(2018) in Advanced materials (Weinh., Print)
Luciano Ortenzi, Emmanuele Cappelluti, Luciano Pietronero

Band structure and Van Hove singularities in H3S

(2018) in Quantum Studies : Mathematics and Foundations Online
Baldini E.; Mann A.; Benfatto L.; Cappelluti E.; Acocella A.; Silkin V.M.; Eremeev S.V.; Kuzmenko A.B.; Borroni S.; Tan T.; Xi X.X.; Zerbetto F.; Merlin R.; Carbone F.

Real-time Observation of Phonon-Mediated sigma-pi Interband Scattering in MgB2

(2017) in Physical review letters (Print)
Gonnelli, R. S.; Piatti, E.; Sola, A.; Tortello, M.; Dolcini, F.; Galasso, S.; Nair, J. R.; Gerbaldi, C.; Cappelluti, E.; Bruna, M.; Ferrari, A. C.

Weak localization in electric-double-layer gated few-layer graphene

(2017) in 2D materials
Rostami H.; Cappelluti E.

Impurity effects and bandgap closing in massive Dirac systems

(2017) in Physical Review B
Christian Martella, Carlo Mennucci, Eugenio Cinquanta, Alessio Lamperti, Emmanuele Cappelluti, Francesco Buatier de Mongeot, Alessandro Molle

Anisotropic MoS 2 Nanosheets Grown on Self-Organized Nanopatterned Substrates

(2017) in Advanced Materials
Valentina Brosco (1); Lara Benfatto (1); Emmanuele Cappelluti (1); Claudio Grimaldi (2)

Unconventional dc Transport in Rashba Electron Gases

(2016) in Physical review letters
L. Ortenzi, E. Cappelluti, and L. Pietronero

Band structure and electron-phonon coupling in H3S: A tight-binding model

(2016) in Physical review. B, Condensed matter and materials physics
Luciano Ortenzi; Emmanuele Cappelluti; Luciano Pietronero

Non-adiabatic effects in transition metal dichalcogenides

(2015) FisMat2015, Italian National Conference on Condensed Matter Physics, Palermo, 28/09-02/10, 2015
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