Towards spin-polarized two-dimensional electron gas at a surface of an antiferromagnetic insulating oxide

Mishra, Rohan; Kim, Young Min; He, Qian; Xing, Huaizhong; Kim, Seong Keun; Susner, Michael A.; Bhattacharya, Anand; Fong, Dillon D.; Pantelides, Sokrates T.; Borisevich, Albina Y.

doi:10.1103/physrevb.94.045123

Cited by 6 publications

(4 citation statements)

References 70 publications

(70 reference statements)

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“…In Fig. 2b, the L 3 and L 2 peak intensity ratio I(L 3 )/I(L 2 ), reflecting the valence state of Fe atoms [35], are also presented in blue. The ratio varies little (smaller than 4%) within the FeSe/FeTe films.…”

Section: Resultsmentioning

confidence: 99%

Interface enhanced superconductivity in monolayer FeSe films on MgO(001): charge transfer with atomic substitution

et al. 2018

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Section: Resultsmentioning

confidence: 99%

Interface enhanced superconductivity in monolayer FeSe films on MgO(001): charge transfer with atomic substitution

et al. 2018

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“…The pre-peak in the O K edge is the result of electronic transitions from O 1 s states to O 2 p states. The O 2 p states are hybridized with the V 3 d states, and as a result, the higher O K edge pre-peak intensity points towards a higher number of empty O 2 p states hybridized with V 3 d states 49 , 50 . Therefore, the reduced intensity of the O K edge pre-peak is a direct result of V reduction upon Zn 2+ intercalation.…”

Section: Resultsmentioning

confidence: 99%

Enabling selective zinc-ion intercalation by a eutectic electrolyte for practical anodeless zinc batteries

et al. 2023

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Two major challenges hinder the advance of aqueous zinc metal batteries for sustainable stationary storage: (1) achieving predominant Zn-ion (de)intercalation at the oxide cathode by suppressing adventitious proton co-intercalation and dissolution, and (2) simultaneously overcoming Zn dendrite growth at the anode that triggers parasitic electrolyte reactions. Here, we reveal the competition between Zn2+vs proton intercalation chemistry of a typical oxide cathode using ex-situ/operando techniques, and alleviate side reactions by developing a cost-effective and non-flammable hybrid eutectic electrolyte. A fully hydrated Zn2+ solvation structure facilitates fast charge transfer at the solid/electrolyte interface, enabling dendrite-free Zn plating/stripping with a remarkably high average coulombic efficiency of 99.8% at commercially relevant areal capacities of 4 mAh cm−2 and function up to 1600 h at 8 mAh cm−2. By concurrently stabilizing Zn redox at both electrodes, we achieve a new benchmark in Zn-ion battery performance of 4 mAh cm−2 anode-free cells that retain 85% capacity over 100 cycles at 25 °C. Using this eutectic-design electrolyte, Zn | |Iodine full cells are further realized with 86% capacity retention over 2500 cycles. The approach represents a new avenue for long-duration energy storage.

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“…We observe a prepeak at ~533 eV in the O K edge obtained from within the shear band, which is absent in the region away from it. The prepeak in the O K edge is attributed to electronic transitions from O 1 s core states to unoccupied O 2 p states that are hybridized to the empty states of neighboring atoms, specifically to the transition metal atoms (Luo et al, 2009; Mishra et al, 2016; Varela et al, 2009). A higher O K edge prepeak indicates a larger number of unoccupied O 2 p states hybridized to Fe 3 d states, which suggests a higher oxidation state of +3 for Fe.…”

Section: Resultsmentioning

confidence: 99%

Amorphization and Plasticity of Olivine During Low‐Temperature Micropillar Deformation Experiments

et al. 2020

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Experimentally quantifying the viscoplastic rheology of olivine at the high stresses and low temperatures of the shallow lithosphere is challenging due to olivine's propensity to deform by brittle mechanisms at these conditions. In this study, we use microscale uniaxial compression tests to investigate the rheology of an olivine single crystal at room pressure and temperature. Pillars with nominal diameters of 1.25 μm were prepared using a focused ion beam milling technique and were subjected to sustained axial stresses of several gigapascal. The majority of the pillars failed after dwell times ranging from several seconds to a few hours. However, several pillars exhibited clear evidence of plastic deformation without failure after 4–8 hr under load. The corresponding creep strain rates are estimated to be on the order of 10−6 to 10−7 s−1. The uniaxial stresses required to achieve this deformation (4.1–4.4 GPa) are in excellent agreement with complementary data obtained using nanoindentation techniques. Scanning transmission electron microscopy observations indicate that deformation occurred along amorphous shear bands within the deformed pillars. Electron energy loss spectroscopy measurements revealed that the bands are enriched in Fe and depleted in Mg. We propose that inhomogeneities in the cation distribution in olivine concentrate stress and promote the amorphization of the Fe‐rich regions. The time dependence of catastrophic failure events suggests that the amorphous bands must grow to some critical length scale to generate an unstable defect, such as a shear crack.

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Towards spin-polarized two-dimensional electron gas at a surface of an antiferromagnetic insulating oxide

Cited by 6 publications

References 70 publications

Interface enhanced superconductivity in monolayer FeSe films on MgO(001): charge transfer with atomic substitution

Interface enhanced superconductivity in monolayer FeSe films on MgO(001): charge transfer with atomic substitution

Enabling selective zinc-ion intercalation by a eutectic electrolyte for practical anodeless zinc batteries

Amorphization and Plasticity of Olivine During Low‐Temperature Micropillar Deformation Experiments

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