Basic Physics of Functionalized Graphite, Softcover reprint of the original 1st ed. 2016 Springer Series in Materials Science Series, Vol. 244
Coordonnateur : Esquinazi Pablo D.
Pablo David Esquinazi started his physics studies at the University of Tucumán (Argentine) in 1974 before deciding in 1976 to continue at the Balseiro Institute in Bariloche (Argentine), where he finished his Ph.D. in 1983 working on amorphous superconductors under the supervision of Prof. F. de la Cruz. After research stays in Heidelberg and Bariloche he finished his habilitation at Bayreuth University (Germany) in 1991 working in very low temperature physics issues like two-level systems in solids (Prof. F. Pobell division) and the physics of vortices in high-temperature superconductors. For his contribution to understand the thermally activated behaviour of the flux line lattice in high-temperature superconductors and for the measurements at ultralow temperatures of the acoustic properties of amorphous and crystalline solids he received the Rudolf-Kaiser-Award in 1993. Since 1980 PE published more than 280 papers in peer review journals, having a h-index of 45 and an i10-index of 165. He is editor of the Book: “Tunneling systems in amorphous and crystalline solids”, published by Springer. His main research activities in recent years were related to defect-induced magnetism in solids, including graphite and oxides, and to the search for high-temperature superconductivity in graphite.
Presents newly discovered phenomena of ferromagnetism order and superconductivity
Covers the application potential of functionalized graphite
Shows various similar properties of graphite and graphene
Date de parution : 07-2016
Ouvrage de 185 p.
15.5x23.5 cm
Date de parution : 06-2018
Ouvrage de 185 p.
15.5x23.5 cm
Mots-clés :
Applications of Functionalized Graphite; Ferromagnetism Order in Graphite; Graphite Interfaces; Magnetic Order in Graphite; Magnetic Phase Transitions; Multilayer Graphene; Physics of Graphite; Properties of Graphite; Superconductivity in Graphite; Superconductivity in Layered Systems; Superconductivity on Graphite Interfaces; Topologically Protected Flat Bands