Ezra Day-Roberts scite author profile

Increasingly impressive demonstrations of voltage-controlled magnetism have been achieved recently, highlighting potential for low-power data processing and storage. Magnetoionic approaches appear particularly promising, electrolytes and ionic conductors being capable of on/off control of ferromagnetism and tuning of magnetic anisotropy. A clear limitation, however, is that these devices either electrically tune a known ferromagnet or electrically induce ferromagnetism from another magnetic state, e.g., antiferromagnetic. Here, we demonstrate that ferromagnetism can be voltage-induced even from a diamagnetic (zero-spin) state suggesting that useful magnetic phases could be electrically induced in “nonmagnetic” materials. We use ionic liquid–gated diamagnetic FeS2 as a model system, showing that as little as 1 V induces a reversible insulator-metal transition by electrostatic surface inversion. Anomalous Hall measurements then reveal electrically tunable surface ferromagnetism at up to 25 K. Density functional theory–based modeling explains this in terms of Stoner ferromagnetism induced via filling of a narrow eg band.

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Contrasting ferromagnetism in pyrite FeS2 induced by chemical doping versus electrostatic gating

Day-Roberts

Birol

Fernandes

2020

Phys. Rev. Materials

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Nature of protected zero-energy states in Penrose quasicrystals

2020

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Robust gapless superconductivity in 4Hb−TaS2

et al. 2021

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Gating-induced Mott transition in NiS2

2023

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Ezra Day-Roberts

Voltage-induced ferromagnetism in a diamagnet

Contrasting ferromagnetism in pyrite FeS2 induced by chemical doping versus electrostatic gating

Nature of protected zero-energy states in Penrose quasicrystals

Robust gapless superconductivity in 4Hb−TaS2

Gating-induced Mott transition in NiS2

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