Mott insulator

E111760

A Mott insulator is a material that, despite having partially filled electronic bands that should allow conduction, behaves as an electrical insulator due to strong electron–electron interactions.

All labels observed (2)

Label Occurrences
Mott insulator canonical 3
Mott insulators 2

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Statements (50)

Predicate Object
instanceOf electrical insulator
electronic phase of matter
strongly correlated electron system
contrastsWith band insulator
conventional metal
exampleMaterial La2CuO4
NiO
Sr2CuO2Cl2
V2O3
hasProperty band theory alone predicts metallic behavior
breakdown of independent-electron approximation
can exhibit high-temperature antiferromagnetism
can exhibit large effective electron mass near transition
can exhibit pseudogap behavior near the Mott transition
can exhibit quantum spin liquid behavior in frustrated lattices
can exhibit spectral weight transfer with doping
can exhibit spin–charge separation in low dimensions
can show antiferromagnetic order at low temperature
can show charge ordering
can show orbital ordering
can show spin ordering
can undergo insulator–metal transition
charge gap often called Mott gap
correlation-driven insulating behavior
electrically insulating despite partially filled bands
electron localization due to interactions
insulating gap arises from Coulomb repulsion
may exhibit strong coupling between charge and lattice
may exhibit strong coupling between spin and lattice
may exhibit strong coupling between spin and orbital degrees of freedom
often described by Hubbard model
often described by t–J model in low-energy limit
often exhibits local magnetic moments
often found in transition metal oxides
often proximate to unconventional superconductivity upon doping
often shows strong temperature dependence of resistivity
optical conductivity shows correlation-induced gap
photoemission spectra show lower and upper Hubbard bands
requires many-body treatment of electrons
sensitive to chemical doping
sensitive to pressure
sensitive to temperature
strong electron–electron interactions
suppressed charge transport
typically occurs at or near half-filling
namedAfter Nevill Mott
surface form: Nevill Francis Mott
studiedIn condensed matter physics
materials science
strongly correlated electron physics
theorizedBy Nevill Mott
surface form: Nevill Francis Mott

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Referenced by (5)

Full triples — surface form annotated when it differs from this entity's canonical label.

Nevill Mott knownFor Mott insulator
Nevill notableConcept Mott insulator
subject surface form: Nevill Francis Mott
Mott transition relatedConcept Mott insulator
Mott knownFor Mott insulator
subject surface form: Nevill Francis Mott
this entity surface form: Mott insulators
resonating valence bond theory appliesTo Mott insulator
this entity surface form: Mott insulators