Metal-insulator transition in Sr2-xLaxCoO4 driven by spin-state transition
Hua Wu
TL;DR
This study investigates the metal-insulator transition in Sr2-xLaxCoO4, revealing that a spin-state transition induced by La doping suppresses electron hopping and causes insulating behavior, highlighting spin states as a tuning mechanism.
Contribution
It demonstrates how La doping induces a spin-state transition in Sr2-xLaxCoO4, linking spin states to electronic and magnetic properties for the first time.
Findings
Sr2CoO4 is in an intermediate-spin state with ferromagnetic metallicity.
La doping causes a transition from IS-Co4+ to LS-Co4+ and HS-Co3+ states.
Spin-state transition suppresses electron hopping, leading to insulating behavior.
Abstract
We sought the origin of the metal-insulator transition in Sr2-xLaxCoO4, using electron-correlation corrected density functional calculations. Our results show that Sr2CoO4 is in an intermediate-spin (IS) state and a strong Co4+ 3d-O 2p hybridization is responsible for its ferromagnetic metallicity. Upon La doping, however, a spin-state transition occurs in Sr1.5La0.5CoO4: IS-Co4+ x 2 + 1e --> LS-Co4+ + HS-Co3+ (LS: low spin; HS: high spin). Then the spin-state transition suppresses an electron hopping via a spin-blockade and gives rise to the insulating behavior of Sr1.5La0.5CoO4. A corresponding superexchange accounts for its ferromagnetism. Thus, spin state could provide a way to tune materials properties.
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