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218 results on '"Agrestini, Stefano"'

1. Orbital inversion and emergent lattice dynamics in infinite layer CaCoO$_2$

Author

Jost, Daniel, Lomeli, Eder G., Kim, Woo Jin, Been, Emily M., Rossi, Matteo, Agrestini, Stefano, Zhou, Kejin, Jia, Chunjing, Moritz, Brian, Shen, Zhi-Xun, Hwang, Harold Y., Devereaux, Thomas P., and Lee, Wei-Sheng

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

The layered cobaltate CaCoO$_2$ exhibits a unique herringbone-like structure. Serving as a potential prototype for a new class of complex lattice patterns, we study the properties of CaCoO$_2$ using X-ray absorption spectroscopy (XAS) and resonant inelastic X-ray scattering (RIXS). Our results reveal a significant inter-plane hybridization between the Ca $4s-$ and Co $3d-$orbitals, leading to an inversion of the textbook orbital occupation of a square planar geometry. Further, our RIXS data reveal a strong low energy mode, with anomalous intensity modulations as a function of momentum transfer close to a quasi-static response suggestive of electronic and/or orbital ordering. These findings indicate that the newly discovered herringbone structure exhibited in CaCoO$_2$ may serve as a promising laboratory for the design of materials having strong electronic, orbital and lattice correlations.

Published
2024

2. Unified Description of Charge Density Waves in Electron- and Hole-doped Cuprate Superconductors

Author

Choi, Jaewon, Tu, Sijia, Nag, Abhishek, Tam, Charles C., Tippireddy, Sahil, Agrestini, Stefano, Lin, Zefeng, Garcia-Fernandez, Mirian, Jin, Kui, and Zhou, Ke-Jin

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

High-temperature cuprates superconductors are characterised by the complex interplay between superconductivity (SC) and charge density wave (CDW) in the context of intertwined competing orders. In contrast to abundant studies for hole-doped cuprates, the exact nature of CDW and its relationship to SC was much less explored in electron-doped counterparts. Here, we performed resonant inelastic x-ray scattering (RIXS) experiments to investigate the relationship between CDW and SC in electron-doped La$_{2-x}$Ce$_x$CuO$_4$. The short-range CDW order with a correlation length $\sim35$~\AA~was found in a wide range of temperature and doping concentration. Near the optimal doping, the CDW order is weakened inside the SC phase, implying an intimate relationship between the two orders. This interplay has been commonly reported in hole-doped La-based cuprates near the optimal doping. We reconciled the diverging behaviour of CDW across the superconducting phase in various cuprate materials by introducing the CDW correlation length as a key parameter. Our study paves the way for establishing a unified picture to describe the phenomenology of CDW and its relationship with SC in the cuprate family., Comment: 24 pages 5 figures; Supplementary Materials available upon request

Published
2024

3. Emergence of interfacial magnetism in strongly-correlated nickelate-titanate superlattices

Author

Asmara, Teguh Citra, Green, Robert J., Suter, Andreas, Wei, Yuan, Zhang, Wenliang, Knez, Daniel, Harris, Grant, Tseng, Yi, Yu, Tianlun, Betto, Davide, Garcia-Fernandez, Mirian, Agrestini, Stefano, Klein, Yannick Maximilian, Kumar, Neeraj, Galdino, Carlos William, Salman, Zaher, Prokscha, Thomas, Medarde, Marisa, Müller, Elisabeth, Soh, Yona, Brookes, Nicholas B., Zhou, Ke-Jin, Radovic, Milan, and Schmitt, Thorsten

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Strongly-correlated transition-metal oxides are widely known for their various exotic phenomena. This is exemplified by rare-earth nickelates such as LaNiO$_{3}$, which possess intimate interconnections between their electronic, spin, and lattice degrees of freedom. Their properties can be further enhanced by pairing them in hybrid heterostructures, which can lead to hidden phases and emergent phenomena. An important example is the LaNiO$_{3}$/LaTiO$_{3}$ superlattice, where an interlayer electron transfer has been observed from LaTiO$_{3}$ into LaNiO$_{3}$ leading to a high-spin state. However, macroscopic emergence of magnetic order associated with this high-spin state has so far not been observed. Here, by using muon spin rotation, x-ray absorption, and resonant inelastic x-ray scattering, we present direct evidence of an emergent antiferromagnetic order with high magnon energy and exchange interactions at the LaNiO$_{3}$/LaTiO$_{3}$ interface. As the magnetism is purely interfacial, a single LaNiO$_{3}$/LaTiO$_{3}$ interface can essentially behave as an atomically thin strongly-correlated quasi-two-dimensional antiferromagnet, potentially allowing its technological utilisation in advanced spintronic devices. Furthermore, its strong quasi-two-dimensional magnetic correlations, orbitally-polarized planar ligand holes, and layered superlattice design make its electronic, magnetic, and lattice configurations resemble the precursor states of superconducting cuprates and nickelates, but with an $S \rightarrow 1$ spin state instead., Comment: 41 pages, 14 figures

Published
2024
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4. Electronic and magnetic excitations in La$_3$Ni$_2$O$_7$

Author

Chen, Xiaoyang, Choi, Jaewon, Jiang, Zhicheng, Mei, Jiong, Jiang, Kun, Li, Jie, Agrestini, Stefano, Garcia-Fernandez, Mirian, Huang, Xing, Sun, Hualei, Shen, Dawei, Wang, Meng, Hu, Jiangping, Lu, Yi, Zhou, Ke-Jin, and Feng, Donglai

Subjects
Condensed Matter - Superconductivity
Abstract

The striking discovery of high-temperature superconductivity (HTSC) of 80 K in a bilayer nickelate La$_3$Ni$_2$O$_7$ under a moderately high pressure of about 14 GPa ignited a new wave of studying HTSC in nickelates. The properties of the parental phase at ambient pressure may contain key information on basic interactions therein and bosons that may mediate pairing giving birth to superconductivity. Moreover, the bilayer structure of La$_3$Ni$_2$O$_7$ may suggest a distinct minimal model in comparison to cuprate superconductors. Here using X-ray absorption spectroscopy and resonant inelastic X-ray scattering, we studied La$_3$Ni$_2$O$_7$ at ambient pressure, and found that Ni 3$d_{x^2-y^2}$, Ni 3$d_{z^2}$, and ligand oxygen 2$p$ orbitals dominate the low-energy physics with a small charge-transfer energy. Remarkably, well-defined optical-like magnetic excitations were found to soften into a quasi-static spin-density-wave ordering, evidencing the strong electronic correlations and rich magnetic properties. Based on a Heisenberg spin model, we found that the inter-layer effective magnetic superexchange interaction is much larger than the intra-layer ones, and proposed two viable magnetic structures. Our results set the foundation for further exploration of La$_3$Ni$_2$O$_7$ superconductor.

Published
2024
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7. Strain-tuned incompatible magnetic exchange-interaction in La2NiO4

Author

Biało, Izabela, Martinelli, Leonardo, De Luca, Gabriele, Worm, Paul, Drewanowski, Annabella, Jöhr, Simon, Choi, Jaewon, Garcia-Fernandez, Mirian, Agrestini, Stefano, Zhou, Ke-Jin, Kummer, Kurt, Brookes, Nicholas B., Guo, Luo, Edgeton, Anthony, Eom, Chang B., Tomczak, Jan M., Held, Karsten, Gibert, Marta, Wang, Qisi, and Chang, Johan

Published
2024
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8. Non-local features of the spin-orbit exciton in Kitaev materials

Author

Lebert, Blair W., Kim, Subin, Kim, Beom Hyun, Chun, Sae Hwan, Casa, Diego, Choi, Jaewon, Agrestini, Stefano, Zhou, Kejin, Garcia-Fernandez, Mirian, and Kim, Young-June

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

A comparative resonant inelastic x-ray scattering (RIXS) study of three well-known Kitaev materials is presented: $\alpha$-Li$_2$IrO$_3$, Na$_2$IrO$_3$, and $\alpha$-RuCl$_3$. Despite similar low-energy physics, these materials show distinct electronic properties, such as the large difference in the size of the charge gap. The RIXS spectra of the spin-orbit exciton for these materials show remarkably similar three-peak features, including sharp low energy peak (peak A) as well as transitions between $j_{\text{eff}}=1/2$ and $j_{\text{eff}}=3/2$ states. Comparison of experimental spectra with cluster calculations reveals that the observed three-peak structure reflects the significant role that non-local physics plays in the electronic structure of these materials. In particular, the low-energy peak A arises from a holon-doublon pair rather than a conventional particle-hole exciton as proposed earlier. Our study suggests that while spin-orbit assisted Mott insulator is still the best description for these materials, electron itinerancy cannot be ignored when formulating low-energy Hamiltonian of these materials.

Published
2023
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9. Detection of a two-phonon mode in a cuprate superconductor via polarimetric RIXS

Author

Scott, Kirsty, Kisiel, Elliot, Yakhou, Flora, Agrestini, Stefano, Garcia-Fernandez, Mirian, Kummer, Kurt, Choi, Jaewon, Zhong, Ruidan, Schneeloch, John A., Gu, Genda D., Zhou, Ke-Jin, Brookes, Nicholas B., Kemper, Alexander F., Minola, Matteo, Boschini, Fabio, Frano, Alex, Gozar, Adrian, and Neto, Eduardo H. da Silva

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

Recent improvements in the energy resolution of resonant inelastic x-ray scattering experiments (RIXS) at the Cu-L$_3$ edge have enabled the study of lattice, spin, and charge excitations. Here, we report on the detection of a low intensity signal at 140meV, twice the energy of the bond-stretching (BS) phonon mode, in the cuprate superconductor $\textrm{Bi}_2\textrm{Sr}_2\textrm{Ca}\textrm{Cu}_2\textrm{O}_{8+x}$ (Bi-2212). Ultra-high resolution polarimetric RIXS measurements allow us to resolve the outgoing polarization of the signal and identify this feature as a two-phonon excitation. Further, we study the connection between the two-phonon mode and the BS one-phonon mode by constructing a joint density of states toy model that reproduces the key features of the data.

Published
2023
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11. Reply to 'Comment on newly found Charge Density Waves in infinite layer Nickelates'

Author

Tam, Charles C., Choi, Jaewon, Ding, Xiang, Agrestini, Stefano, Nag, Abhishek, Wu, Mei, Huang, Bing, Luo, Huiqian, Gao, Peng, Garcia-Fernandez, Mirian, Qiao, Liang, and Zhou, Ke-Jin

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Charge density waves (CDW) have been reported in NdNiO$_2$ and LaNiO$_2$ thin films grown on SrTiO$_3$ substrates using Ni-$L_3$ resonant x-ray scattering in Refs. [1-3]. In their comment [arXiv:2306.15086] on these reports, Pelliciari et al. found no evidence for a CDW in a NdNiO$_2$ film by performing fixed-momentum energy-dependent measurements. Instead, they observed a nearby non-resonant scattering peak, attributed to the (101) substrate reflection, made accessible at Ni-$L_3$ due to third harmonic light contamination. Here we present fixed-momentum energy-dependent resonant inelastic x-ray scattering measurements across Ni-$L_3$ on NdNiO$_2$, used in the preceding study [1]. We see intrinsic Ni-$L_3$ energy profiles at all measured \textbf{Q} values, including a strong resonance effect at $\mathbf{Q}_\mathrm{CDW} = (-1/3, 0, 0.316)$ reciprocal lattice units. Attempts to measure the (101) substrate peak using third harmonic light at Ni-$L_3$ at I21, Diamond were unfruitful. Our results clearly demonstrate the electronic origin of the scattering peak published in Ref. [1] and lack of a detectable structural component in the peak.

Published
2023

12. Chiral phonons probed by X rays

Author

Ueda, Hiroki, García-Fernández, Mirian, Agrestini, Stefano, Romao, Carl P., Brink, Jeroen van den, Spaldin, Nicola A., Zhou, Ke-Jin, and Staub, Urs

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The concept of chirality is of great relevance in nature, from chiral molecules such as sugar to parity transformations in particle physics. In condensed matter physics, recent studies have demonstrated chiral fermions and their relevance in emergent phenomena closely related to topology. The experimental verification of chiral phonons (bosons) remains challenging, however, despite their expected strong impact on fundamental physical properties. Here we show experimental proof of chiral phonons using resonant inelastic X-ray scattering with circularly polarized X rays. Using the prototypical chiral material, quartz, we demonstrate that circularly polarized X rays, which are intrinsically chiral, couple to chiral phonons at specific positions in reciprocal space, allowing us to determine the chiral dispersion of the lattice modes. Our experimental proof of chiral phonons demonstrates a new degree of freedom in condensed matter that is both of fundamental importance and opens the door to exploration of novel emergent phenomena based on chiral bosons, Comment: 5

Published
2023
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13. Stripe Symmetry of Short-range Charge Density Waves in Cuprate Superconductors

Author

Choi, Jaewon, Li, Jiemin, Nag, Abhishek, Pelliciari, Jonathan, Robarts, Hannah, Tam, Charles C., Walters, Andrew, Agrestini, Stefano, García-Fernández, Mirian, Song, Dongjoon, Eisaki, Hiroshi, Johnston, Steven, Comin, Riccardo, Ding, Hong, and Zhou, Ke-Jin

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

The omnipresence of charge density waves (CDWs) across almost all cuprate families underpins a common organizing principle. However, a longstanding debate of whether its spatial symmetry is stripe or checkerboard remains unresolved. While CDWs in lanthanum- and yttrium-based cuprates possess a stripe symmetry, distinguishing these two scenarios has been challenging for the short-range CDW in bismuth-based cuprates. Here, we employed high-resolution resonant inelastic x-ray scattering to uncover the spatial symmetry of the CDW in Bi$_2$Sr$_{2-x}$La$_{x}$CuO$_{6+\delta}$. Across a wide range of doping and temperature, anisotropic CDW peaks with elliptical shapes were found in reciprocal space. Based on Fourier transform analysis of real-space models, we interpret the results as evidence of unidirectional charge stripes, hosted by mutually 90$^\circ$-rotated anisotropic domains. Our work paves the way for a unified symmetry and microscopic description of CDW order in cuprates., Comment: 9 pages, 3 figures and Supplementary Information; Under peer review

Published
2023
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14. Low-energy quasi-circular electron correlations with charge order wavelength in Bi2Sr2CaCu2O8+δ.

Author

Scott, Kirsty, Kisiel, Elliot, Boyle, Timothy, Basak, Rourav, Jargot, Gaëtan, Das, Sarmistha, Agrestini, Stefano, Garcia-Fernandez, Mirian, Choi, Jaewon, Pelliciari, Jonathan, Li, Jiemin, Zhong, Ruidan, Schneeloch, John, Gu, Genda, Légaré, François, Kemper, Alexander, Zhou, Ke-Jin, Bisogni, Valentina, Blanco-Canosa, Santiago, Frano, Alex, Boschini, Fabio, da Silva Neto, Eduardo, and Chuang, Yi-De

Abstract

Most resonant inelastic x-ray scattering (RIXS) studies of dynamic charge order correlations in the cuprates have focused on the high-symmetry directions of the copper oxide plane. However, scattering along other in-plane directions should not be ignored as it may help understand, for example, the origin of charge order correlations or the isotropic scattering resulting in strange metal behavior. Our RIXS experiments reveal dynamic charge correlations over the qx-qy scattering plane in underdoped Bi2Sr2CaCu2O8+δ. Tracking the softening of the RIXS-measured bond-stretching phonon, we show that these dynamic correlations exist at energies below approximately 70 meV and are centered around a quasi-circular manifold in the qx-qy scattering plane with radius equal to the magnitude of the charge order wave vector, qCO. This phonon-tracking procedure also allows us to rule out fluctuations of short-range directional charge order (i.e., centered around [qx = ±qCO, qy = 0] and [qx = 0, qy = ±qCO]) as the origin of the observed correlations.

Published
2023

15. Correlation driven near-flat band Stoner excitations in a Kagome magnet

Author

Nag, Abhishek, Peng, Yiran, Li, Jiemin, Agrestini, Stefano, Robarts, H. C., Garcia-Fernandez, Mirian, Walters, A. C., Wang, Qi, Yin, Qiangwei, Lei, Hechang, Yin, Zhiping, and Zhou, Ke-Jin

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Among condensed matter systems, Mott insulators exhibit diverse properties that emerge from electronic correlations. In itinerant metals, correlations are usually weak, but can also be enhanced via geometrical confinement of electrons, that manifest as `flat' dispersionless electronic bands. In the fast developing field of topological materials, which includes Dirac and Weyl semimetals, flat bands are one of the important components that can result in unusual magnetic and transport behaviour. To date, characterisation of flat bands and their magnetism is scarce, hindering the design of novel materials. Here, we investigate the ferromagnetic Kagom\'{e} semimetal Co$_3$Sn$_2$S$_2$ using resonant inelastic X-ray scattering. Remarkably, nearly non-dispersive Stoner spin excitation peaks are observed, sharply contrasting with the featureless Stoner continuum expected in conventional ferromagnetic metals. Our band structure and dynamic spin susceptibility calculations, and thermal evolution of the excitations, confirm the nearly non-dispersive Stoner excitations as unique signatures of correlations and spin-polarized electronic flat bands in Co$_3$Sn$_2$S$_2$. These observations serve as a cornerstone for further exploration of band-induced symmetry-breaking orders in topological materials., Comment: 15 pages, 4 figures, and Supplementary Information

Published
2022
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16. Metal-ligand redox in layered oxide cathodes for Li-ion batteries

Author

Ogley, Matthew J.W., Menon, Ashok S., Pandey, Gaurav C., Páez Fajardo, Galo J., Johnston, Beth J., McClelland, Innes, Majherova, Veronika, Huband, Steven, Tripathy, Debashis, Temprano, Israel, Agrestini, Stefano, Celorrio, Veronica, Pérez, Gabriel E., Booth, Samuel G., Grey, Clare P., Cussen, Serena A., and Piper, Louis F.J.

Published
2025
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17. A broken translational symmetry state in an infinite-layer nickelate

Author

Rossi, Matteo, Osada, Motoki, Choi, Jaewon, Agrestini, Stefano, Jost, Daniel, Lee, Yonghun, Lu, Haiyu, Wang, Bai Yang, Lee, Kyuho, Nag, Abhishek, Chuang, Yi-De, Kuo, Cheng-Tai, Lee, Sang-Jun, Moritz, Brian, Devereaux, Thomas P, Shen, Zhi-Xun, Lee, Jun-Sik, Zhou, Ke-Jin, Hwang, Harold Y, and Lee, Wei-Sheng

Subjects
Physical Sciences, Condensed Matter Physics, Mathematical Sciences, Fluids & Plasmas, Mathematical sciences, Physical sciences
Abstract

A defining signature of strongly correlated electronic systems is a rich phase diagram, which consists of multiple broken symmetries, such as magnetism, superconductivity and charge order1,2. In the recently discovered nickelate superconductors3–10, a large antiferromagnetic exchange energy has been reported, which implies the existence of strong electronic correlations11. However, signatures of a broken-symmetry state other than superconductivity have not yet been observed. Here we observe charge ordering in infinite-layer nickelates La1−xSrxNiO2 using resonant X-ray scattering. The parent compound orders along the Ni–O bond direction with an incommensurate wavevector, distinct from the stripe order observed in other nickelates12–14 that propagates along a direction 45° to the Ni–O bond. The resonance profile we measure indicates that ordering originates from the nickelate layers and induces a parasitic charge modulation of lanthanum electrons. Upon doping, the charge order diminishes and its wavevector shifts towards commensurate, hinting that strong electronic correlations are likely to be responsible for the ordered state. Our results suggest that the existence of charge order and its potential interplay with antiferromagnetic fluctuations and superconductivity are important themes in nickel-based superconductors.

Published
2022

18. Charge density waves in infinite-layer NdNiO$_2$ nickelates

Author

Tam, Charles C., Choi, Jaewon, Ding, Xiang, Agrestini, Stefano, Nag, Abhishek, Huang, Bing, Luo, Huiqian, García-Fernández, Mirian, Qiao, Liang, and Zhou, Ke-Jin

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

In materials science, much effort has been devoted to reproduce superconductivity in chemical compositions analogous to cuprate superconductors since their discovery over thirty years ago. This approach was recently successful in realising superconductivity in infinite-layer nickelates. Although differing from cuprates in electronic and magnetic properties, strong Coulomb interactions suggest infinite-layer nickelates have a propensity to various symmetry-breaking orders that populate the cuprates. Here we report the observation of charge density waves (CDWs) in infinite-layer NdNiO$_2$ films using Ni-$L_3$ resonant x-ray scattering. Remarkably, CDWs form in Nd 5$d$ and Ni 3$d$ orbitals at the same commensurate wavevector $(0.333, 0)\;r.l.u.$, with non-negligible out-of-plane dependence, and an in-plane correlation length up to $\sim$ 60 Angstrom. Spectroscopic studies reveal a strong connection between CDWs and the Nd 5$d$ - Ni 3$d$ orbital hybridisation. Upon entering the superconducting state at 20\% Sr doping, the CDWs disappear. Our work demonstrates the existence of CDWs in infinite-layer nickelates with a multi-orbital character distinct from cuprates, which establishes their low-energy physics., Comment: 9 pages, 4 figures, and Supplementary Information

Published
2021
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19. A Broken Translational Symmetry State in an Infinite-Layer Nickelate

Author

Rossi, Matteo, Osada, Motoki, Choi, Jaewon, Agrestini, Stefano, Jost, Daniel, Lee, Yonghun, Lu, Haiyu, Wang, Bai Yang, Lee, Kyuho, Nag, Abhishek, Chuang, Yi-De, Kuo, Cheng-Tai, Lee, Sang-Jun, Moritz, Brian, Devereaux, Thomas P., Shen, Zhi-Xun, Lee, Jun-Sik, Zhou, Ke-Jin, Hwang, Harold Y., and Lee, Wei-Sheng

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

A defining signature of strongly correlated electronic systems is the existence of competing phases with similar ground state energies, resulting in a rich phase diagram. While in the recently discovered nickelate superconductors, a high antiferromagnetic exchange energy has been reported, which implies the existence of strong electronic correlations, signatures of competing phases have not yet been observed. Here, we uncover a charge order (CO) in infinite-layer nickelates La1-xSrxNiO2 using resonant x-ray scattering across the Ni L-edge. In the parent compound, the CO arranges along the Ni-O bond direction with an incommensurate wave vector (0.344+/-0.002, 0) r.l.u., distinct from the stripe order in other nickelates which propagates along a direction 45 degree to the Ni-O bond. The CO resonance profile indicates that CO originates from the Ni 3d states and induces a parasitic charge modulation of La electrons. Upon doping, the CO diminishes and the ordering wave vector shifts toward a commensurate value of 1/3 r.l.u., indicating that the CO likely arises from strong correlation effects and not from Fermi surface nesting., Comment: 24 pages, 8 figures

Published
2021
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20. Evolution of the electronic structure in Ta$_2$NiSe$_5$ across the structural transition revealed by resonant inelastic x-ray scattering

Author

Lu, Haiyu, Ross, Matteo, Kim, 1Jung-ho, Yavas, Hasan, Said, Ayman, Nag, Abhishek, Garcia-Fernandez, Mirian, Agrestini, Stefano, Zhou, Kejin, Jia, Chunjing, Moritz, Brian, Devereaux, Thomas P., Shen, Zhi-Xun, and Lee, Wei-Sheng

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We utilized high-energy-resolution resonant inelastic X-ray scattering (RIXS) at both the Ta and Ni $L_3$-edges to map out element-specific particle-hole excitations in Ta$_2$NiSe$_5$ across the phase transition. Our results reveal a momentum dependent gap-like feature in the low energy spectrum, which agrees well with the band gap in element-specific joint density of states calculations based on ab initio estimates of the electronic structure in both the low temperature monoclinic and the high temperature orthorhombic structure. Below $T_c$, the RIXS energy-momentum map shows a minimal gap at the Brillouin zone center ($\sim$ 0.16 eV), confirming that Ta$_2$NiSe$_5$ possesses a direct band gap in its low temperature ground state. However, inside the gap, no signature of anticipated collective modes with an energy scale comparable to the gap size can be identified. Upon increasing the temperature to above $T_c$, whereas the gap at the zone center closes, the RIXS map at finite momenta still possesses the gross features of the low temperature map, suggesting a substantial mixing between the Ta and Ni orbits in the conduction and valence bands, which does not change substantially across the phase transition. Our experimental observations and comparison to the theoretical calculations lend further support that the phase transition and the corresponding gap opening in Ta$_2$NiSe$_5$ is largely structural by nature with possible minor contribution from the putative exciton condensate., Comment: The manuscript has been accepted by Physical Review B

Published
2021
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21. Orbital-resolved single atom magnetism measured with X-ray absorption spectroscopy

Author

Singha, Aparajita, Sostina, Daria, Wolf, Christoph, Ahmed, Safa L., Krylov, Denis, Colazzo, Luciano, Gargiani, Pierluigi, Agrestini, Stefano, Noh, Woo-Suk, Park, Jae-Hoon, Pivetta, Marina, Rusponi, Stefano, Brune, Harald, Heinrich, Andreas J., Barla, Alessandro, and Donati, Fabio

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Lanthanide atoms and molecules are promising candidates for atomic data storage and quantum logic due to the long magnetic lifetime of their electron quantum states. Accessing these states through electrical transport requires the engineering of their electronic configuration down to the level of individual atomic orbitals. Here, we address the magnetism of surface-supported lanthanide atoms, clusters, and films with orbital selectivity using X-ray absorption spectroscopy and magnetic circular dichroism. We exploit the selection rules of electric dipole transitions to reveal the occupation and magnetism of the valence electrons of Gd and Ho deposited on MgO/Ag(100). Comparing our results with multiplet calculations and density functional theory, we identify a charge transfer mechanism that leaves the lanthanide species in an unconventional singly ionized configuration. Our approach allows determining the role of valence electrons on the quantum level structure of lanthanide-based nanostructures.

Published
2020

22. Possible multi-orbital ground state in CeCu$_2$Si$_2$

Author

Amorese, Andrea, Marino, Andrea, Sundermann, Martin, Chen, Kai, Hu, Zhiwei, Willers, Thomas, Choukani, Fadi, Ohresser, Philippe, Herrero-Martin, Javier, Agrestini, Stefano, Chen, Chien-Te, Lin, Hong-Ji, Haverkort, Maurits W., Seiro, Silvia, Geibel, Christoph, Steglich, Frank, Tjeng, Liu Hao, Zwicknagl, Gertrud, and Severing, Andrea

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The crystal-field ground state wave function of CeCu$_2$Si$_2$ has been investigated with linear polarized $M$-edge x-ray absorption spectroscopy from 250mK to 250K, thus covering the superconducting ($T_{\text{c}}$=0.6K), the Kondo ($T_{\text{K}}$$\approx$20K) as well as the Curie-Weiss regime. The comparison with full-multiplet calculations shows that the temperature dependence of the experimental linear dichroism is well explained with a $\Gamma_7^{(1)}$ crystal-field ground-state and the thermal population of excited states at around 30meV. The crystal-field scheme does not change throughout the entire temperature range thus making the scenario of orbital switching unlikely. Spectroscopic evidence for the presence of the Ce 4$f^0$ configuration in the ground state is consistent with the possibility for a multi-orbital character of the ground state. We estimate from the Kondo temperature and crystal-field splitting energies that several percents of the higher lying $\Gamma_6$ state and $\Gamma_7^{(2)}$ crystal-field states are mixed into the primarily $\Gamma_7^{(1)}$ ground state. This estimate is also supported by re-normalized band-structure calculations that uses the experimentally determined crystal-field scheme., Comment: 8 pages, 5 figures

Published
2020
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23. New highly-anisotropic Rh-based Heusler compound for magnetic recording

Author

He, Yangkun, Fecher, Gerhard H., Fu, Chenguang, Pan, Yu, Manna, Kaustuv, Kroder, Johannes, Jha, Ajay, Wang, Xiao, Hu, Zhiwei, Agrestini, Stefano, Herrero-Martin, Javier, Valvidares, Manuel, Skourski, Yurii, Schnelle, Walter, Stamenov, Plamen, Borrmann, Horst, Tjeng, Liu Hao, Schaefer, Rudolf, Parkin, S. S. P., Coey, J. M. D., and Felser, Claudia

Subjects
Condensed Matter - Materials Science
Abstract

The development of high-density magnetic recording media is limited by the superparamagnetism in very small ferromagnetic crystals. Hard magnetic materials with strong perpendicular anisotropy offer stability and high recording density. To overcome the difficulty of writing media with a large coercivity, heat assisted magnetic recording (HAMR) has been developed, rapidly heating the media to the Curie temperature Tc before writing, followed by rapid cooling. Requirements are a suitable Tc, coupled with anisotropic thermal conductivity and hard magnetic properties. Here we introduce Rh2CoSb as a new hard magnet with potential for thin film magnetic recording. A magnetocrystalline anisotropy of 3.6 MJm-3 is combined with a saturation magnetization of {\mu}0Ms = 0.52 T at 2 K (2.2 MJm-3 and 0.44 T at room-temperature). The magnetic hardness parameter of 3.7 at room temperature is the highest observed for any rare-earth free hard magnet. The anisotropy is related to an unquenched orbital moment of 0.42 {\mu}B on Co, which is hybridized with neighbouring Rh atoms with a large spin-orbit interaction. Moreover, the pronounced temperature-dependence of the anisotropy that follows from its Tc of 450 K, together with a high thermal conductivity of 20 Wm-1K-1, makes Rh2CoSb a candidate for development for heat assisted writing with a recording density in excess of 10 Tb/in2.

Published
2020
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24. Crystalline and magnetic structure of Ba2CuO3+{\delta} investigated by x-ray absorption spectroscopy and resonant inelastic x-ray scattering

Author

Fumagalli, Roberto, Nag, Abhishek, Agrestini, Stefano, Garcia-Fernandez, Mirian, Walters, Andrew C., Betto, Davide, Brookes, Nicholas B., Braicovich, Lucio, Zhou, Ke-Jin, Ghiringhelli, Giacomo, and Sala, Marco Moretti

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

Motivated by the recent synthesis of Ba$_2$CuO$_{3+\delta}$ (BCO), a high temperature superconducting cuprate with putative $d_{3z^2-r^2}$ ground state symmetry, we investigated its electronic structure by means of Cu $L_3$ x-ray absorption (XAS) and resonant inelastic x-ray scattering (RIXS) at the Cu $L_3$ edge on a polycrystalline sample. We show that the XAS profile of BCO is characterised by two peaks associated to inequivalent Cu sites, and that its RIXS response features a single, sharp peak associated to crystal-field excitations. We argue that these observations are only partially compatible with the previously proposed crystal structure of BCO. Based on our spectroscopic results and on previously published powder diffraction measurements, we propose a crystalline structure characterized by two inequivalent Cu sites located at alternated planes along the $c$ axis: nominally trivalent Cu(1) belonging to very short Cu-O chains, and divalent Cu(2) in the oxygen deficient CuO$_ {1.5}$ planes. We also analyze the low-energy region of the RIXS spectra to estimate the magnitude of the magnetic interactions in BCO and find that in-plane nearest neighbor superexchange exceeds 120~meV, similarly to that of other layered cuprates. Although these results do not support the pure $d_{3z^2-r^2}$ ground state scenario, they hint at a significant departure from the common quasi-2D electronic structure of superconducting cuprates of pure $d_{x^2-y^2}$ symmetry.

Published
2020
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25. Room-temperature ferrimagnetism of anti-site-disordered Ca2MnOsO6

Author

Feng, Hai L., Ghimire, Madhav Prasad, Hu, Zhiwei, Liao, Sheng-Chieh, Agrestini, Stefano, Chen, Jie, Yuan, Yahua, Matsushita, Yoshitaka, Tsujimoto, Yoshihiro, Katsuya, Yoshio, Tanaka, Masahiko, Lin, Hong-Ji, Chen, Chien-Te, Weng, Shih-Chang, Valvidares, Manuel, Chen, Kai, Baudelet, Francois, Tanaka, Arata, Greenblatt, Martha, Tjeng, Liu Hao, and Yamaura, Kazunari

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Room-temperature ferrimagnetism was discovered for the anti-site-disordered perovskite Ca2MnOsO6 with Tc = 305 K. Ca2MnOsO6 crystallizes into an orthorhombic structure with a space group of Pnma, in which Mn and Os share the oxygen-coordinated-octahedral site at an equal ratio without a noticeable ordered arrangement. The material is electrically semiconducting with variable-range-hopping behavior. X-ray absorption spectroscopy confirmed the trivalent state of the Mn and the pentavalent state of the Os. X-ray magnetic circular dichroism spectroscopy reveals that the Mn and Os magnetic moments are aligned antiferromagnetically, thereby classifying the material as a ferrimagnet which is in accordance with band structure calculations. It is intriguing that the magnetic signal of the Os is very weak, and that the observed total magnetic moment is primarily due to the Mn. The Tc = 305 K is the second highest in the material category of so-called disordered ferromagnets such as CaRu1-xMnxO3, SrRu1-xCrxO3, and CaIr1-xMnxO3, and hence, may support the development of spintronic oxides with relaxed requirements concerning the anti-site disorder of the magnetic ions.

Published
2020
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26. Critical role of hydrogen for superconductivity in nickelates

Author

Ding, Xiang, Tam, Charles C., Sui, Xuelei, Zhao, Yan, Xu, Minghui, Choi, Jaewon, Leng, Huaqian, Zhang, Ji, Wu, Mei, Xiao, Haiyan, Zu, Xiaotao, Garcia-Fernandez, Mirian, Agrestini, Stefano, Wu, Xiaoqiang, Wang, Qingyuan, Gao, Peng, Li, Sean, Huang, Bing, Zhou, Ke-Jin, and Qiao, Liang

Published
2023
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28. Reversible Electron–Holes on O in P2‐type Na0.67Li0.1Ni0.3Mn0.6O2.

Author

Marie, John‐Joseph, Jenkins, Max, Chen, Jun, Rees, Gregory, Cellorio, Veronica, Choi, Jaewon, Agrestini, Stefano, Garcia‐Fernandez, Mirian, Zhou, Ke‐Jin, House, Robert A., and Bruce, Peter G.

Subjects
ENERGY density, HIGH voltages, TRANSITION metals, CATHODES, HONEYCOMB structures
Abstract

Achieving reversible O‐redox through the formation of electron–holes on O could hold the key to a new generation of high energy density Na‐ion cathodes. However, to date, it has only been demonstrated in a small handful of cathode materials and none of these materials exploit the dual benefit of high voltage transition metal redox and O‐redox, instead relying on Mn3+/4+ capacity close to 2 V vs Na+/Na. Here, a new Na‐ion cathode exhibiting electron–holes on O is demonstrated, P2‐type Na0.67Li0.1Ni0.3Mn0.6O2, which also utilizes the high voltage Ni3+/4+ redox couple to deliver the highest reported energy density among this class of compound. By employing a low Li content and avoiding honeycomb ordering within the transition metal layer, it is possible to stabilize the hole states, and the high voltage plateau is preserved in Na0.67Li0.1Ni0.3Mn0.6O2 over cycling. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Direct bulk sensitive probe of 5f symmetry in URu2Si2

Author

Sundermann, Martin, Haverkort, Maurits W., Agrestini, Stefano, Al-Zein, Ali, Sala, Marco Moretti, Huang, Yingkai, Golden, Mark, de Visser, Anne, Thalmeier, Peter, Tjeng, Liu Hao, and Severing, Andrea

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The second-order phase transition into a hidden order phase in URu$_2$Si$_2$ goes along with an order parameter which is still a mystery, despite 30 years of research. However, it is understood that the symmetry of the order parameter must be related to the symmetry of the low lying local electronic $f$-states. Here we present results of a novel spectroscopy, namely core-level non-resonant inelastic x-ray scattering (NIXS). This method allows for the measurement of local high-multipole excitations and it is bulk sensitive. The observed anisotropy of the scattering function unambiguously shows that the 5$f$ ground state wave function is composed mainly, but essentially not purely, of the $\Gamma_1$ with majority $J_z$ =$|4\rangle$ + $|-4\rangle$ and/or $\Gamma_2$ singlet states., Comment: 9 pages, 6 figures

Published
2016
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35. State of Co and Mn in half-metallic ferromagnet Co$_2$MnSi explored by magnetic circular dichroism in hard X-ray photoelectron emission and soft X-ray absorption spectroscopies

Author

Fecher, Gerhard H., Ebke, Daniel, Ouardi, Siham, Agrestini, Stefano, Kuo, Chang-Yang, Hollmann, Nils, Hu, Zhiwei, Gloskovskii, Andrei, Yakhou, Flora, Brookes, Nicholas B., and Felser, Claudia

Subjects
Condensed Matter - Materials Science
Abstract

The half-metallic Heusler compound Co$_2$MnSi is a very attractive material for spintronic devices because it exhibits very high tunnelling magnetoresistance ratios. This work reports on a spectroscopic investigation of thin Co$_2$MnSi films as they are used as electrodes in magnetic tunnel junctions. The investigated films exhibit a remanent in-plane magnetisation with a magnetic moment of about 5~$\mu_B$ when saturated, as expected. The low coercive field of only 4~mT indicates soft magnetic behaviour. Magnetic dichroism in emission and absorption was measured at the Co and Mn $2p$ core levels. The photoelectron spectra were excited by circularly polarised hard X-rays with an energy of of 6~keV and taken from the remanently magnetised film. The soft X-ray absorption spectra were taken in an induction field of 4~T. Both methods yielded large dichroism effects. An analysis reveals the localised character of the electrons and magnetic moments attributed to the Mn atoms, whereas the electrons related to the Co atoms contribute an itinerant part to the total magnetic moment.

Published
2015
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36. Metal–Ligand Redox in Layered Oxide Cathodes for Li-ion Batteries

Author

Ogley, Matthew J. W., primary, Menon, Ashok S., additional, Pandey, Gaurav, additional, Páez Fajardo, Galo J., additional, Johnston, Beth J., additional, McClelland, Innes, additional, Majherova, Veronika, additional, Huband, Steven, additional, Tripathy, Debashis, additional, Temprano, Israel, additional, Agrestini, Stefano, additional, Celorrio, Veronica, additional, Pérez, Gabriel E., additional, Booth, Samuel G., additional, Grey, Clare P., additional, Cussen, Serena A., additional, and Piper, Louis F. J., additional

Published
2024
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37. Spin correlations in Ca3Co2O6: A polarised-neutron diffraction and Monte Carlo study

Author

Paddison, Joseph A. M., Agrestini, Stefano, Lees, Martin R., Fleck, Catherine L., Deen, Pascale P., Goodwin, Andrew L., Stewart, J. Ross, and Petrenko, Oleg A.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We present polarised-neutron diffraction measurements of the Ising-like spin-chain compound Ca3Co2O6 above and below the magnetic ordering temperature TN. Below TN, a clear evolution from a single-phase spin-density wave (SDW) structure to a mixture of SDW and commensurate antiferromagnet (CAFM) structures is observed on cooling. For a rapidly-cooled sample, the majority phase at low temperature is the SDW, while if the cooling is performed sufficiently slowly, then the SDW and the CAFM structure coexist between 1.5 and 10 K. Above TN, we use Monte Carlo methods to analyse the magnetic diffuse scattering data. We show that both intra- and inter-chain correlations persist above TN, but are essentially decoupled. Intra-chain correlations resemble the ferromagnetic Ising model, while inter-chain correlations resemble the frustrated triangular-lattice antiferromagnet. Using previously-published bulk property measurements and our neutron diffraction data, we obtain values of the ferromagnetic and antiferromagnetic exchange interactions and the single-ion anisotropy., Comment: 10 pages, 7 figures

Published
2013
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39. X-ray Absorption Spectroscopic Study of the Transition-Metal-Only Double Perovskite Oxide Mn2CoReO6

Author

Wang, Xiao, Zhang, Jie, Pan, Zhao, Lu, Dabiao, Pi, Maocai, Ye, Xubin, Dong, Cheng, Chen, Jie, Chen, Kai, Radu, Florin, Francoual, Sonia, Agrestini, Stefano, Hu, Zhiwei, Chang, Chun-Fu, Tanaka, Arata, Yamaura, Kazunari, Shen, Yao, and Long, Youwen

Abstract

By means of X-ray absorption spectroscopic studies, both experimentally and theoretically, we investigated the magnetic properties of the transition-metal-only double perovskite oxide Mn2CoReO6, which experiences an antiferromagnetic transition at TN= 93 K, whereas it holds a considerable net moment at low temperature. Internal exchange fields against the applied magnetic field for all the transition metal ions were identified, providing a microscopic insight into the intrasite antiferromagnetic couplings. Nevertheless, parallelly oriented canted spins of the Mn, Co, and Re cations were observed. In particularly, the Mn and Co cations hold considerable canting moments, which can be ascribed to the competition between the ferromagnetic intersite and antiferromagnetic intrasite magnetic interactions. Moreover, a spin-valve-type magnetoresistance was observed below the TN. The concurrence of the magnetoresistance effect and the antiferromagnetic semiconductive nature make Mn2CoReO6a promising candidate for high-speed and energy-saving spintronics applications.

Published
2024
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40. Metal–Ligand Redox in Layered Oxide Cathodes for Li-Ion Batteries

Author

Ogley, Matthew John William, primary, Menon, Ashok S., additional, Pandey, Gaurav, additional, Paez Fajardo, Galo J., additional, Johnston, Beth J., additional, McClelland, Innes, additional, Majherova, Veronika, additional, Huband, Steven, additional, Tripathy, Debashis, additional, Temprano, Israel, additional, Agrestini, Stefano, additional, Celorrio, Veronica, additional, Pérez, Gabriel E., additional, Booth, Samuel G., additional, Grey, Clare P., additional, Cussen, Serena A., additional, and Piper, Louis, additional

Published
2024
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41. Does trapped O2 form in the bulk of LiNiO2 during charging?

Author

Juelsholt, Mikkel, primary, Chen, Jun, additional, Pérez-Osorio, Miguel A., additional, Rees, Gregory Jon, additional, De Sousa Coutinho, Sofia, additional, Maynard-Casely, Helen Elizabeth, additional, Liu, Jue, additional, Everett, Michelle, additional, Agrestini, Stefano, additional, Garcia-Fernandez, Mirian, additional, Zhou, Ke-Jin, additional, House, Robert, additional, and Bruce, Peter G., additional

Published
2024
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43. Strain-tuned incompatible magnetic exchange-interaction in La2NiO4.

Author

Biało, Izabela, Martinelli, Leonardo, De Luca, Gabriele, Worm, Paul, Drewanowski, Annabella, Jöhr, Simon, Choi, Jaewon, Garcia-Fernandez, Mirian, Agrestini, Stefano, Zhou, Ke-Jin, Kummer, Kurt, Brookes, Nicholas B., Guo, Luo, Edgeton, Anthony, Eom, Chang B., Tomczak, Jan M., Held, Karsten, Gibert, Marta, Wang, Qisi, and Chang, Johan

Subjects
QUANTUM spin liquid, INELASTIC neutron scattering, INELASTIC scattering, SUBSTRATES (Materials science)
Abstract

Magnetic frustration is a route for novel ground states, including spin liquids and spin ices. Such frustration can be introduced through either lattice geometry or incompatible exchange interactions. Here, we find that epitaxial strain is an effective tool for tuning antiferromagnetic exchange interactions in a square-lattice system. By studying the magnon excitations in La2NiO4 films using resonant inelastic x-ray scattering, we show that the magnon displays substantial dispersion along the antiferromagnetic zone boundary, at energies that depend on the lattice of the film's substrate. Using first principles simulations and an effective spin model, we demonstrate that the antiferromagnetic next-nearest neighbour coupling is a consequence of the two-orbital nature of La2NiO4. Altogether, we illustrate that compressive epitaxial strain enhances this coupling and, as a result, increases the level of incompatibility between exchange interactions within a model square-lattice system. Frustration in magnetic systems may lead to exotic quantum phases such as spin liquid and spin ice state. Here the authors demonstrate that compressive epitaxial strain in La2NiO4 films deposited on different substrates can tune antiferromagnetic exchange interactions and increase the degree of frustration through the increased level of incompatibility between exchange interactions. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Nonlocal features of the spin-orbit exciton in Kitaev materials

Author

Lebert, Blair W., primary, Kim, Subin, additional, Kim, Beom Hyun, additional, Chun, Sae Hwan, additional, Casa, Diego, additional, Choi, Jaewon, additional, Agrestini, Stefano, additional, Zhou, Kejin, additional, Garcia-Fernandez, Mirian, additional, and Kim, Young-June, additional

Published
2023
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45. Universal Stripe Symmetry of Short‐range Charge Density Waves in Cuprate Superconductors

Author

Choi, Jaewon, primary, Li, Jiemin, additional, Nag, Abhishek, additional, Pelliciari, Jonathan, additional, Robarts, Hannah, additional, Tam, Charles C., additional, Walters, Andrew, additional, Agrestini, Stefano, additional, García‐Fernández, Mirian, additional, Song, Dongjoon, additional, Eisaki, Hiroshi, additional, Johnston, Steve, additional, Comin, Riccardo, additional, Ding, Hong, additional, and Zhou, Ke‐Jin, additional

Published
2023
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46. Trapped O2and the origin of voltage fade in layered Li-rich cathodes

Author

Marie, John-Joseph, House, Robert A., Rees, Gregory J., Robertson, Alex W., Jenkins, Max, Chen, Jun, Agrestini, Stefano, Garcia-Fernandez, Mirian, Zhou, Ke-Jin, and Bruce, Peter G.

Abstract

Oxygen redox cathodes, such as Li1.2Ni0.13Co0.13Mn0.54O2, deliver higher energy densities than those based on transition metal redox alone. However, they commonly exhibit voltage fade, a gradually diminishing discharge voltage on extended cycling. Recent research has shown that, on the first charge, oxidation of O2−ions forms O2molecules trapped in nano-sized voids within the structure, which can be fully reduced to O2−on the subsequent discharge. Here we show that the loss of O-redox capacity on cycling and therefore voltage fade arises from a combination of a reduction in the reversibility of the O2−/O2redox process and O2loss. The closed voids that trap O2grow on cycling, rendering more of the trapped O2electrochemically inactive. The size and density of voids leads to cracking of the particles and open voids at the surfaces, releasing O2. Our findings implicate the thermodynamic driving force to form O2as the root cause of transition metal migration, void formation and consequently voltage fade in Li-rich cathodes.

Published
2024
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48. Chiral phonons in quartz probed by X-rays

Author

Ueda, Hiroki, primary, García-Fernández, Mirian, additional, Agrestini, Stefano, additional, Romao, Carl P., additional, van den Brink, Jeroen, additional, Spaldin, Nicola A., additional, Zhou, Ke-Jin, additional, and Staub, Urs, additional

Published
2023
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