The Mott–Hubbard insulating state and orbital degeneracy in the superconducting C603− fulleride family

Durand, Pierrick; Darling, George R.; Dubitsky, Y.; Zaopo, A.; Rosseinsky, Matthew J.

doi:10.1038/nmat953

Cited by 74 publications

(62 citation statements)

References 29 publications

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“…The insulator Cs 3 C 60 can be turned into superconductor by pressure 13 . The superconductivity induced by pressure in Cs 3 C 60 is related to the antiferromagnetic Mott insulator 11,12 , similar to the cuprate. For the graphite superconductors with π-electron networks, C 6 Yb and C 6 Ca show superconductivity at 6.5 and 11.5 K (ref.…”

mentioning

confidence: 98%

“…This behaviour is expected by the Bardeen, Cooper and Schrieffer (BCS) theory, because the expansion of lattice leads to an enhancement of the density of states on the Fermi surface. However, the body-centered-cubic fulleride Cs 3 C 60 is found to be a true Mott-Jahn-Teller insulator, and it possesses both the ingredients required by the strongly correlated theory 11,12 . The insulator Cs 3 C 60 can be turned into superconductor by pressure 13 .…”

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confidence: 99%

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Superconductivity at 5 K in alkali-metal-doped phenanthrene

et al. 2011

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organic superconductors have π-molecular orbitals, from which electrons can become delocalized, giving rise to metallic conductivity due to orbital overlap between adjacent molecules. Here we report the discovery of superconductivity at a transition temperature (T c ) of ~5 K in alkali-metal-doped phenanthrene. A 1-GPa pressure leads to a 20% increase of T c , suggesting that alkali-metal-doped phenanthrene shows unconventional superconductivity. Raman spectra indicate that alkali-metal doping injects charge into the system to realize the superconductivity. The discovery of superconductivity in A 3 phenanthrene (where A can be either K or Rb) produces a novel broad class of superconductors consisting of fused hydrocarbon benzene rings with π-electron networks. An increase of T c with increasing number of benzene rings from three to five suggests that organic hydrocarbons with long chains of benzene rings are potential superconductors with high T c .

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confidence: 98%

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confidence: 99%

Superconductivity at 5 K in alkali-metal-doped phenanthrene

et al. 2011

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“…Charge transfer compounds of C 60 with alkali atoms, known as alkali fullerides, have features that resemble those of inorganic correlated systems with orbital degeneracy [3,4]. Extensive characterization in the past two decades has shown that alkali fullerides display a high degree of electron localization on individual molecules [5] and strong electron-electron interactions [6,7], and that they lie close to a metal-to-insulator transition [8,9] in which the coupling of valence electrons to intramolecular Jahn-Teller-active modes plays a crucial role [10].…”

Section: Introductionmentioning

confidence: 99%

“…In compounds of even stoichiometry (x = 2, 4) charge fluctuations are hindered both by correlation and JT effects [20][21][22], resulting in insulating and diamagnetic ground states [23][24][25], while in odd stoichiometries of cubic symmetry metallic behaviour and even phonon-mediated superconductivity (for x = 3) are observed [26][27][28]. In the latter systems a symmetry reduction involving the lifting of the LUMO degeneracy or a lattice expansion lead to an insulating state [8,9,29]. Despite the qualitative success of this description, a full quantitative understanding of metallic behaviour in fullerides is still lacking.…”

Section: Introductionmentioning

confidence: 99%

Surface Hubbard U of alkali fullerides

Macovez¹,

Hunt

Goldoni

et al. 2011

Journal of Electron Spectroscopy and Related Phenomena

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“…In addition to interesting physical and chemical properties of fullerenes, such as: superconductivity [1,2], nonlinear optics [3], ferromagnetism [4,5] and applications in solar cells [6,7], is an interesting object to study localized electronic states, magnetic properties and metal to insulator transitions [8,9]. In ordinary solids, it is difficult to observe localized charged states on a long distance, but individual fullerenes are spatially isolated, thus a pair of molecules can be used to model a system with two localized spins, similar to a diatomic molecule, but on significantly larger distance between centers.…”

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confidence: 99%

Multiconfigurational Study of the Electronic Structure of Negatively Charged Fullerens

Naderi¹,

Veryazov²

2017

JCCE

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Multiconfigurational second order perturbation theory was employed in order to describe the ground and excited states of . Different choices of the active spaces are discussed and the possibility to apply multiconfigurational theory to study is investigated. The calculations were performed for all possible spin states (for selected charge) and show the preference of low spin state. The energy difference between twoand pairs -and -shows that the probability to create a charge alternation in fullerides is small.

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The Mott–Hubbard insulating state and orbital degeneracy in the superconducting C603− fulleride family

Cited by 74 publications

References 29 publications

Superconductivity at 5 K in alkali-metal-doped phenanthrene

Superconductivity at 5 K in alkali-metal-doped phenanthrene

Surface Hubbard U of alkali fullerides

Multiconfigurational Study of the Electronic Structure of Negatively Charged Fullerens

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