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1. Evidence of directional structural superlubricity and L\'evy flights in a van der Waals heterostructure

Author

Ster, Maxime Le, Krukowski, Paweł, Rogala, Maciej, Dabrowski, Paweł, Lutsyk, Iaroslav, Toczek, Klaudia, Podlaski, Krzysztof, Mendeş, Tefvik O., Genuzio, Francesca, Locatelli, Andrea, Bian, Guan, Chiang, Tai-Chang, Brown, Simon A., and Kowalczyk, Paweł J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Structural superlubricity is a special frictionless contact in which two crystals are in incommensurate arrangement such that relative in-plane translation is associated with vanishing energy barrier crossing. So far, it has been realized in multilayer graphene and other van der Waals two-dimensional crystals with hexagonal or triangular crystalline symmetries, leading to isotropic frictionless contacts. Directional structural superlubricity, to date unrealized in two-dimensional systems, is possible when the reciprocal lattices of the two crystals coincide in one direction only. Here, we evidence directional structural superlubricity a $\alpha$-bismuthene/graphite van der Waals system, manifested by spontaneous hopping of the islands over hundreds of nanometres at room temperature, resolved by low-energy electron microscopy and supported by registry simulations. Statistical analysis of individual and collective $\alpha$-bismuthene islands populations reveal a heavy-tailed distribution of the hopping lengths and sticking times indicative of L{\'e}vy flight dynamics, largely unobserved in condensed-matter systems., Comment: 14 pages, 10 figures (including Supplementary Information and Supplementary Figures)

Published
2024

2. Boron nitride-graphene in-plane hexagonal heterostructure in oxygen environment

Author

Magnano, Elena, Nappini, Silvia, Pis, Igor, Mentes, Tevfik Onur, Genuzio, Francesca, Locatelli, Andrea, and Bondino, Federica

Subjects
Condensed Matter - Materials Science
Abstract

Aiming to improve fabrication protocols for boron nitride and graphene (h-BNG) lateral heterostructures, we studied the growth of h-BNG thin films on platinum and their behavior in an oxygen environment. We employed a surface science approach based on advanced spectroscopy and imaging techniques to investigate the evolution of surface stoichiometry and chemical intermediates at each reaction step. During oxygen exposure at increasing temperatures, we observed progressive and subsequent intercalation of oxygen, and selective etching of graphene accompanied by the oxidation of boron. Additionally, by exploiting the O2 etching selectivity towards graphene at 250{\deg}C and repeating growth cycles, we obtained in-plane h-BNG layers with controllable compositions and vertically stacked h-BN/Gr heterostructures without the use of consecutive transfer procedures. The growth using a single precursor molecule can be beneficial for the development of versatile atomically thin layers for electronic devices.

Published
2022
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4. Ostwald ripening in an oxide-on-metal system

Author

Michalak, Natalia, Ossowski, Tomasz, Miłosz, Zygmunt, Prieto, Mauricio J., Wang, Ying, Werwiński, Mirosław, Babacic, Visnja, Genuzio, Francesca, Vattuone, Luca, Kiejna, Adam, Schmidt, Thomas, and Lewandowski, Mikołaj

Subjects
Physics - Chemical Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Ostwald ripening is a well-known physicochemical phenomenon in which smaller particles, characterized by high surface energy, dissolve and feed the bigger ones that are thermodynamically more stable. The effect is commonly observed in solid and liquid solutions, as well as in systems consisting of supported metal clusters or liquid droplets. Here, we provide the first evidence for the occurrence of Ostwald ripening in an oxide-on-metal system which, in our case, consists of ultrathin iron monoxide (FeO) islands grown on Ru(0001) single-crystal support. The results reveal that the thermally-driven sintering of islands allows altering their fine structural characteristics, including size, perimeter length, defect density and stoichiometry, which are crucial, e.g., from the point of view of heterogeneous catalysis.

Published
2021

5. Moir\'{e} superlattice effects and band structure evolution in near-30-degree twisted bilayer graphene

Author

Hamer, Matthew J., Giampietri, Alessio, Kandyba, Viktor, Genuzio, Francesca, Mentes, Tevfik O., Locatelli, Andrea, Gorbachev, Roman V., Barinov, Alexei, and Mucha-Kruczynski, Marcin

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In stacks of two-dimensional crystals, mismatch of their lattice constants and misalignment of crystallographic axes lead to formation of moir\'{e} patterns. We show that moir\'{e} superlattice effects persist in twisted bilayer graphene (tBLG) with large twists and short moir\'{e} periods. Using angle-resolved photoemission, we observe dramatic changes in valence band topology across large regions of the Brillouin zone, including the vicinity of the saddle point at $M$ and across 3 eV from the Dirac points. In this energy range, we resolve several moir\'{e} minibands and detect signatures of secondary Dirac points in the reconstructed dispersions. For twists $\theta>21.8^{\circ}$, the low-energy minigaps are not due to cone anti-crossing as is the case at smaller twist angles but rather due to moir\'{e} scattering of electrons in one graphene layer on the potential of the other which generates intervalley coupling. Our work demonstrates robustness of mechanisms which enable engineering of electronic dispersions of stacks of two-dimensional crystals by tuning the interface twist angles. It also shows that large-angle tBLG hosts electronic minigaps and van Hove singularities of different origin which, given recent progress in extreme doping of graphene, could be explored experimentally., Comment: main text: 25 pages, 5 figures; supplement: 22 pages, 7 figures

Published
2020
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6. Ghost anti-crossings caused by interlayer umklapp hybridization of bands in 2D heterostructures

Author

Graham, Abigail J., Zultak, Johanna, Hamer, Matthew J., Zolyomi, Viktor, Magorrian, Samuel, Barinov, Alexei, Kandyba, Viktor, Giampietri, Alessio, Locatelli, Andrea, Genuzio, Francesca, Teutsch, Natalie C., Salazar, Temok, Hine, Nicholas D. M., Fal'ko, Vladimir I., Gorbachev, Roman V., and Wilson, Neil R.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In two-dimensional heterostructures, crystalline atomic layers with differing lattice parameters can stack directly one on another. The resultant close proximity of atomic lattices with differing periodicity can lead to new phenomena. For umklapp processes, this opens the possibility for interlayer umklapp scattering, where interactions are mediated by the transfer of momenta to or from the lattice in the neighbouring layer. Using angle-resolved photoemission spectroscopy to study a graphene on InSe heterostructure, we present evidence that interlayer umklapp processes can cause hybridization between bands from neighbouring layers in regions of the Brillouin zone where bands from only one layer are expected, despite no evidence for moir/'e-induced replica bands. This phenomenon manifests itself as 'ghost' anti-crossings in the InSe electronic dispersion. Applied to a range of suitable 2DM pairs, this phenomenon of interlayer umklapp hybridization can be used to create strong mixing of their electronic states, giving a new tool for twist-controlled band structure engineering., Comment: Main paper: 21 pages, 4 figures. Supplementary Material: 12 pages, 7 figures

Published
2020

7. Anisotropic skyrmion bubbles in ultra-thin epitaxial Au$_{0.67}$Pt$_{0.33}$/Co/W films

Author

Camosi, Lorenzo, Peña-Garcia, José, Fruchart, Olivier, Pizzini, Stefania, Locatelli, Andrea, Menteş, Tevfik Onur, Genuzio, Francesca, Shaw, Justin, Nembach, Hans, and Vogel, Jan

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We studied the symmetry of magnetic properties and the resulting magnetic textures in ultra-thin epitaxial Au$_{0.67}$Pt$_{0.33}$/Co/W, a model system exhibiting perpendicular magnetic anisotropy and interface Dzyaloshinskii-Moriya interaction (DMI). As a peculiar feature, the C$_\mathrm{2v}$ crystal symmetry induced by the Co/W interface results in an additional uniaxial in-plane magnetic anisotropy in the cobalt layer. Photoemission electron microscopy with magnetic sensitivity reveals the formation of self-organized magnetic stripe domains oriented parallel to the hard in-plane magnetization axis. We attribute this behavior to the lower domain wall energy when oriented along this axis, where both the DMI and the in-plane magnetic anisotropy favor a N\'{e}el domain wall configuration. The anisotropic domain wall energy also leads to the formation of elliptical skyrmion bubbles in a weak out-of-plane magnetic field.

Published
2020

8. In-plane magnetic domains and N\'eel-like domain walls in thin flakes of the room temperature CrTe$_2$ van der Waals ferromagnet

Author

Purbawati, Anike, Coraux, Johann, Vogel, Jan, Hadj-Azzem, Abdellali, Wu, NianJheng, Bendiab, Nedjma, Jégouso, David, Renard, Julien, Marty, Laetitia, Bouchiat, Vincent, Sulpice, André, Aballe, Lucia, Foerster, Michael, Genuzio, Francesca, Locatelli, Andrea, Menteş, Tevfik Onur, Han, Zheng Vitto, Sun, Xingdan, Núñez-Regueiro, Manuel, and Rougemaille, Nicolas

Subjects
Condensed Matter - Materials Science
Abstract

The recent discovery of magnetic van der Waals materials has triggered a wealth of investigations in materials science, and now offers genuinely new prospects for both fundamental and applied research. Although the catalogue of van der Waals ferromagnets is rapidly expanding, most of them have a Curie temperature below 300 K, a notable disadvantage for potential applications. Combining element-selective x-ray magnetic imaging and magnetic force microscopy, we resolve at room temperature the magnetic domains and domains walls in micron-sized flakes of the CrTe$_2$ van der Waals ferromagnet. Flux-closure magnetic patterns suggesting in-plane six-fold symmetry are observed. Upon annealing the material above its Curie point (315 K), the magnetic domains disappear. By cooling back down the sample, a different magnetic domain distribution is obtained, indicating material stability and lack of magnetic memory upon thermal cycling. The domain walls presumably have N\'eel texture, are preferentially oriented along directions separated by 120 degrees, and have a width of several tens of nanometers. Besides microscopic mapping of magnetic domains and domain walls, the coercivity of the material is found to be of a few mT only, showing that the CrTe$_2$ compound is magnetically soft. The coercivity is found to increase as the volume of the material decreases.

Published
2020
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9. Pnictogens Allotropy and Phase Transformation during van der Waals Growth

Author

Fortin-Deschênes, Matthieu, Zschiesche, Hannes, Menteş, Tevfik O., Locatelli, Andrea, Jacobberger, Robert M., Genuzio, Francesca, Lagos, Maureen J., Biswas, Deepnarayan, Jozwiak, Chris, Miwa, Jill A., Ulstrup, Søren, Bostwick, Aaron, Rotenberg, Eli, Arnold, Michael S., Botton, Gianluigi A., and Moutanabbir, Oussama

Subjects
Condensed Matter - Materials Science
Abstract

Pnictogens have multiple allotropic forms resulting from their ns2 np3 valence electronic configuration, making them the only elemental materials to crystallize in layered van der Waals (vdW) and quasi-vdW structures throughout the group. Light group VA elements are found in the layered orthorhombic A17 phase such as black phosphorus, and can transition to the layered rhombohedral A7 phase at high pressure. On the other hand, bulk heavier elements are only stable in the A7 phase. Herein, we demonstrate that these two phases not only co-exist during the vdW growth of antimony on weakly interacting surfaces, but also undertake a spontaneous transformation from the A17 phase to the thermodynamically stable A7 phase. This metastability of the A17 phase is revealed by real-time studies unraveling its thickness-driven transition to the A7 phase and the concomitant evolution of its electronic properties. At a critical thickness of ~4 nm, A17 antimony undergoes a diffusionless shuffle transition from AB to AA stacked alpha-antimonene followed by a gradual relaxation to the A7 bulk-like phase. Furthermore, the electronic structure of this intermediate phase is found to be determined by surface self-passivation and the associated competition between A7- and A17-like bonding in the bulk. These results highlight the critical role of the atomic structure and interfacial interactions in shaping the stability and electronic characteristics of vdW layered materials, thus enabling a new degree of freedom to engineer their properties using scalable processes.

Published
2020
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11. Realisation of Symmetry Enforced Two-Dimensional Dirac Fermions in Nonsymmorphic $\alpha$-Bismuthene

Author

Kowalczyk, Pawel J., Brown, Simon A., Maerkl, Tobias, Lu, Qiangsheng, Chiu, Ching-Kai, Liu, Ying, Yang, Shengyuan A., Wang, Xiaoxiong, Zasada, Ilona, Genuzio, Francesca, Menteş, T. Onur, Locatelli, Andrea, Chiang, Tai-Chang, and Bian, Guang

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Two-dimensional (2D) Dirac-like electron gases have attracted tremendous research interest ever since the discovery of free-standing graphene. The linear energy dispersion and non-trivial Berry phase play the pivotal role in the remarkable electronic, optical, mechanical and chemical properties of 2D Dirac materials. The known 2D Dirac materials are gapless only within certain approximations, for example, in the absence of SOC. Here we report a route to establishing robust Dirac cones in 2D materials with nonsymmorphic crystal lattice. The nonsymmorphic symmetry enforces Dirac-like band dispersions around certain high-symmetry momenta in the presence of SOC. Through $\mu$-ARPES measurements we observe Dirac-like band dispersions in $\alpha$-bismuthene. The nonsymmorphic lattice symmetry is confirmed by $\mu$-LEED and STM. Our first-principles simulations and theoretical topological analysis demonstrate the correspondence between nonsymmorphic symmetry and Dirac states. This mechanism can be straightforwardly generalized to other nonsymmorphic materials. The results open the door for the search of symmetry enforced Dirac fermions in the vast uncharted world of nonsymmorphic 2D materials.

Published
2019
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12. Current-Driven Skyrmion Dynamics and Drive-Dependent Skyrmion Hall Effect in an Ultrathin Film

Author

Juge, Roméo, Je, Soong-Geun, Chaves, Dayane de Souza, Buda-Prejbeanu, Liliana D., Peña-Garcia, José, Nath, Jayshankar, Miron, Ioan Mihai, Rana, Kumari Gaurav, Aballe, Lucia, Foerster, Michael, Genuzio, Francesca, Menteş, Tevfik Onur, Locatelli, Andrea, Maccherozzi, Francesco, Dhesi, Sarnjeet S., Belmeguenai, Mohamed, Roussigné, Yves, Auffret, Stéphane, Pizzini, Stefania, Gaudin, Gilles, Vogel, Jan, and Boulle, Olivier

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Magnetic skyrmions are chiral spin textures that hold great promise as nanoscale information carriers. Since their first observation at room temperature, progress has been made in their current-induced manipulation, with fast motion reported in stray-field-coupled multilayers. However, the complex spin textures with hybrid chiralities and large power dissipation in these multilayers limit their practical implementation and the fundamental understanding of their dynamics. Here, we report on the current-driven motion of N\'eel skyrmions with diameters in the 100-nm range in an ultrathin Pt/Co/MgO trilayer. We find that these skyrmions can be driven at a speed of 100 m/s and exhibit a drive-dependent skyrmion Hall effect, which is accounted for by the effect of pinning. Our experiments are well substantiated by an analytical model of the skyrmion dynamics as well as by micromagnetic simulations including material inhomogeneities. This good agreement is enabled by the simple skyrmion spin structure in our system and a thorough characterization of its static and dynamical properties., Comment: 9 pages, 4 figures + Supplementary Information (12 pages, 9 figures)

Published
2019
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14. Tailoring Magnetic Anisotropy in Ultrathin Cobalt by Surface Carbon Chemistry

Author

Brondin, Carlo Alberto, Ghosh, Sukanya, Debnath, Saikat, Genuzio, Francesca, Genoni, Pietro, Jugovac, Matteo, Bonetti, Stefano, Binggeli, Nadia, Stojic, Natasa, Locatelli, Andrea, Mentes, Tevfik Onur, Brondin, Carlo Alberto, Ghosh, Sukanya, Debnath, Saikat, Genuzio, Francesca, Genoni, Pietro, Jugovac, Matteo, Bonetti, Stefano, Binggeli, Nadia, Stojic, Natasa, Locatelli, Andrea, and Mentes, Tevfik Onur

Abstract

The ability to manipulate magnetic anisotropy is essential for magnetic sensing and storage tools. Surface carbon species offer cost-effective alternatives to metal-oxide and noble metal capping layers, inducing perpendicular magnetic anisotropy in ultrathin ferromagnetic films. Here, the different mechanisms by which the magnetism in a few-layer-thick Co thin film is modified upon adsorption of carbon monoxide (CO), dispersed carbon, and graphene are elucidated. Using X-ray microscopy with chemical and magnetic sensitivity, the in-plane to out-of-plane spin reorientation transition in cobalt is monitored during the accumulation of surface carbon up to the formation of graphene. Complementary magneto-optical measurements show weak perpendicular magnetic anisotropy (PMA) at room temperature for dispersed carbon on Co, while graphene-covered cobalt exhibits a significant out-of-plane coercive field. Density-functional theory (DFT) calculations show that going from CO/Co to C/Co and to graphene/Co, the magnetocrystalline and magnetostatic anisotropies combined promote out-of-plane magnetization. Anisotropy energies weakly depend on carbidic species coverage. Instead, the evolution of the carbon chemical state from carbidic to graphitic is accompanied by an exponential increase in the characteristic domain size, controlled by the magnetic anisotropy energy. Beyond providing a basic understanding of the carbon-ferromagnet interfaces, this study presents a sustainable approach to tailor magnetic anisotropy in ultrathin ferromagnetic films. Magnetic properties of Co ultrathin films are shown to undergo dramatic changes upon surface carbon accumulation. Chemical transformation from molecular carbon monoxide to surface carbide and to a graphene layer progressively enhances the perpendicular magnetic anisotropy of Co. Calculations reveal that magnetocrystalline and magnetostatic contributions play distinctly different roles for the different carbon species.image

Published
2024
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19. Blue Phosphorene on Au(111): theory, spectroscopy and diffraction reveal the role of single Au adatoms.

Author

Del Puppo, Simone, primary, Biasin, Pietro, additional, Sala, Alessandro, additional, Mantegazza, Paola, additional, Pasqua, Ivan, additional, Ghidorsi, Elena, additional, Caporali, Maria, additional, Resta, Andrea, additional, coati, alessandro, additional, Genuzio, Francesca, additional, Mentes, Onur Tevfik, additional, Locatelli, Andrea, additional, Comelli, Giovanni, additional, Africh, Cristina, additional, Vesselli, Erik, additional, PERESSI, MARIA, additional, and Verdini, Alberto, additional

Published
2024
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23. Ostwald Ripening in an Oxide‐on‐Metal System

Author

Michalak, Natalia, primary, Ossowski, Tomasz, additional, Miłosz, Zygmunt, additional, Prieto, Mauricio J., additional, Wang, Ying, additional, Werwiński, Mirosław, additional, Babacic, Visnja, additional, Genuzio, Francesca, additional, Vattuone, Luca, additional, Kiejna, Adam, additional, Schmidt, Thomas, additional, and Lewandowski, Mikołaj, additional

Published
2022
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26. Black or red phosphorus yields the same blue phosphorus film

Author

Sala, Alessandro, primary, Caporali, Maria, additional, Serrano-Ruiz, Manuel, additional, Armillotta, Francesco, additional, Vesselli, Erik, additional, Genuzio, Francesca, additional, Menteş, Tevfik Onur, additional, Locatelli, Andrea, additional, Comelli, Giovanni, additional, Africh, Cristina, additional, and Verdini, Alberto, additional

Published
2022
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27. Correction to “In-Plane Magnetic Domains and Néel-Like Domain Walls in Thin Flakes of the Room Temperature CrTe2 Van der Waals Ferromagnet”

Author

Purbawati, Anike, primary, Coraux, Johann, additional, Vogel, Jan, additional, Hadj-Azzem, Abdellali, additional, Wu, NianJheng, additional, Bendiab, Nedjma, additional, Jegouso, David, additional, Renard, Julien, additional, Marty, Laetitia, additional, Bouchiat, Vincent, additional, Sulpice, André, additional, Aballe, Lucia, additional, Foerster, Michael, additional, Genuzio, Francesca, additional, Locatelli, Andrea, additional, Menteş, Tevfik Onur, additional, Han, Zheng Vitto, additional, Sun, Xingdan, additional, Núñez-Regueiro, Manuel, additional, and Rougemaille, Nicolas, additional

Published
2021
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29. Revisiting the Chemical Stability of Germanium Selenide (GeSe) and the Origin of its Photocatalytic Efficiency

Author

Boukhvalov, Danil W., primary, Nappini, Silvia, additional, Vorokhta, Mykhailo, additional, Menteş, Tevfik Onur, additional, Piliai, Lesia, additional, Panahi, Mohammad, additional, Genuzio, Francesca, additional, De Santis, Jessica, additional, Kuo, Chia‐Nung, additional, Lue, Chin Shan, additional, Paolucci, Valentina, additional, Locatelli, Andrea, additional, Bondino, Federica, additional, and Politano, Antonio, additional

Published
2021
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31. A UHV MOKE magnetometer complementing XMCD-PEEM at the Elettra Synchrotron

Author

Genuzio, Francesca, Giela, Tomasz, Lucian, Matteo, Mentes, Tevfik Onur, Brondin, Carlo Alberto, Cautero, Giuseppe, Mazalski, Piotr, Bonetti, Stefano, Korecki, Jozef, Locatelli, Andrea, Genuzio, Francesca, Giela, Tomasz, Lucian, Matteo, Mentes, Tevfik Onur, Brondin, Carlo Alberto, Cautero, Giuseppe, Mazalski, Piotr, Bonetti, Stefano, Korecki, Jozef, and Locatelli, Andrea

Abstract

We report on a custom-built UHV-compatible Magneto-Optical Kerr Effect (MOKE) magnetometer for applications in surface and materials sciences, operating in tandem with the PhotoEmission Electron Microscope (PEEM) endstation at the Nanospectroscopy beamline of the Elettra synchrotron. The magnetometer features a liquid-nitrogen-cooled electromagnet that is fully compatible with UHV operation and produces magnetic fields up to about 140 mT at the sample. Longitudinal and polar MOKE measurement geometries are realized. The magneto-optical detection is based on polarization analysis using a photoelastic modulator. The sample manipulation system is fully compatible with that of the PEEM, making it possible to exchange samples with the beamline endstation, where complementary X-ray imaging and spectroscopy techniques are available. The magnetometer performance is illustrated by experiments on cobalt ultra-thin films, demonstrating close to monolayer sensitivity. The advantages of combining in situ growth, X-ray Magnetic Circular Dichroism imaging (XMCD-PEEM) and MOKE magnetometry into a versatile multitechnique facility are highlighted.

Published
2021
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36. Quantum Confinement in Aligned Zigzag "Pseudo‐Ribbons" Embedded in Graphene on Ni(100).

Author

Sala, Alessandro, Zou, Zhiyu, Carnevali, Virginia, Panighel, Mirco, Genuzio, Francesca, Menteş, Tevfik O., Locatelli, Andrea, Cepek, Cinzia, Peressi, Maria, Comelli, Giovanni, and Africh, Cristina

Subjects
GRAPHENE, NANORIBBONS, NANOSTRUCTURES, QUANTUM dots, MICROSCOPY, TOPOLOGY
Abstract

Lateral quantum confinement is of great interest in tuning the electronic properties of graphene‐based nanostructures, making them suitable for technological applications. In principle, these properties might be controlled through the edge topology: for example, zigzag nanoribbons are predicted to have spin‐polarized edge states. The practical realization of these structures is of utmost importance in fully harnessing the electronic properties of graphene. Here, the formation of regular, 1.4 nm wide ribbon‐like graphene structures with zigzag edges are reported, showing 1D electronic states. It is found that these "pseudo‐ribbons" embedded in single‐layer graphene supported on Ni(100) can spontaneously form upon carbon segregation underneath 1D graphene moiré domains, extending hundreds of nanometers in length. On the basis of both microscopy/spectroscopy/diffraction experiments and theoretical simulations, it is shown that these structures, even though seamlessly incorporated in a matrix of strongly interacting graphene, exhibit electronic properties closely resembling those of zigzag nanoribbons. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Ghost anti-crossings caused by interlayer umklapp hybridization of bands in 2D heterostructures

Author

Graham, Abigail J, primary, Zultak, Johanna, additional, Hamer, Matthew J, additional, Zolyomi, Viktor, additional, Magorrian, Samuel, additional, Barinov, Alexei, additional, Kandyba, Viktor, additional, Giampietri, Alessio, additional, Locatelli, Andrea, additional, Genuzio, Francesca, additional, Teutsch, Natalie C, additional, Salazar, Cuauhtémoc, additional, Hine, Nicholas D M, additional, Fal’ko, Vladimir I, additional, Gorbachev, Roman V, additional, and Wilson, Neil R, additional

Published
2020
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38. Charge Redistribution Mechanisms in SnSe2 Surfaces Exposed to Oxidative and Humid Environments and Their Related Influence on Chemical Sensing

Author

D’Olimpio, Gianluca, primary, Genuzio, Francesca, additional, Menteş, Tevfik Onur, additional, Paolucci, Valentina, additional, Kuo, Chia-Nung, additional, Al Taleb, Amjad, additional, Lue, Chin Shan, additional, Torelli, Piero, additional, Farías, Daniel, additional, Locatelli, Andrea, additional, Boukhvalov, Danil W., additional, Cantalini, Carlo, additional, and Politano, Antonio, additional

Published
2020
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39. Pnictogens Allotropy and Phase Transformation during van der Waals Growth

Author

Fortin-Deschênes, Matthieu, primary, Zschiesche, Hannes, additional, Menteş, Tevfik O., additional, Locatelli, Andrea, additional, Jacobberger, Robert M., additional, Genuzio, Francesca, additional, Lagos, Maureen J., additional, Biswas, Deepnarayan, additional, Jozwiak, Chris, additional, Miwa, Jill A., additional, Ulstrup, Søren, additional, Bostwick, Aaron, additional, Rotenberg, Eli, additional, Arnold, Michael S., additional, Botton, Gianluigi A., additional, and Moutanabbir, Oussama, additional

Published
2020
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40. Antiphase Boundaries Constitute Fast Cation Diffusion Paths in SrTiO3 Memristive Devices

Author

Heisig, Thomas, primary, Kler, Joe, additional, Du, Hongchu, additional, Baeumer, Christoph, additional, Hensling, Felix, additional, Glöß, Maria, additional, Moors, Marco, additional, Locatelli, Andrea, additional, Menteş, Tevfik Onur, additional, Genuzio, Francesca, additional, Mayer, Joachim, additional, De Souza, Roger A., additional, and Dittmann, Regina, additional

Published
2020
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41. Enhanced Electrocatalytic Activity in GaSe and InSe Nanosheets: The Role of Surface Oxides

Author

D'Olimpio, Gianluca, primary, Nappini, Silvia, additional, Vorokhta, Mykhailo, additional, Lozzi, Luca, additional, Genuzio, Francesca, additional, Menteş, Tevfik Onur, additional, Paolucci, Valentina, additional, Gürbulak, Bekir, additional, Duman, Songül, additional, Ottaviano, Luca, additional, Locatelli, Andrea, additional, Bondino, Federica, additional, Boukhvalov, Danil W., additional, and Politano, Antonio, additional

Published
2020
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42. In-Plane Magnetic Domains and Néel-like Domain Walls in Thin Flakes of the Room Temperature CrTe2 Van der Waals Ferromagnet

Author

Purbawati, Anike, primary, Coraux, Johann, additional, Vogel, Jan, additional, Hadj-Azzem, Abdellali, additional, Wu, NianJheng, additional, Bendiab, Nedjma, additional, Jegouso, David, additional, Renard, Julien, additional, Marty, Laetitia, additional, Bouchiat, Vincent, additional, Sulpice, André, additional, Aballe, Lucia, additional, Foerster, Michael, additional, Genuzio, Francesca, additional, Locatelli, Andrea, additional, Menteş, Tevfik Onur, additional, Han, Zheng Vitto, additional, Sun, Xingdan, additional, Núñez-Regueiro, Manuel, additional, and Rougemaille, Nicolas, additional

Published
2020
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43. Realization of Symmetry-Enforced Two-Dimensional Dirac Fermions in Nonsymmorphic α-Bismuthene

Author

Kowalczyk, Pawel J., primary, Brown, Simon A., additional, Maerkl, Tobias, additional, Lu, Qiangsheng, additional, Chiu, Ching-Kai, additional, Liu, Ying, additional, Yang, Shengyuan A., additional, Wang, Xiaoxiong, additional, Zasada, Ilona, additional, Genuzio, Francesca, additional, Menteş, Tevfik Onur, additional, Locatelli, Andrea, additional, Chiang, Tai-Chang, additional, and Bian, Guang, additional

Published
2020
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44. Current-Driven Skyrmion Dynamics and Drive-Dependent Skyrmion Hall Effect in an Ultrathin Film

Author

Juge, Roméo, primary, Je, Soong-Geun, additional, Chaves, Dayane de Souza, additional, Buda-Prejbeanu, Liliana D., additional, Peña-Garcia, José, additional, Nath, Jayshankar, additional, Miron, Ioan Mihai, additional, Rana, Kumari Gaurav, additional, Aballe, Lucia, additional, Foerster, Michael, additional, Genuzio, Francesca, additional, Menteş, Tevfik Onur, additional, Locatelli, Andrea, additional, Maccherozzi, Francesco, additional, Dhesi, Sarnjeet S., additional, Belmeguenai, Mohamed, additional, Roussigné, Yves, additional, Auffret, Stéphane, additional, Pizzini, Stefania, additional, Gaudin, Gilles, additional, Vogel, Jan, additional, and Boulle, Olivier, additional

Published
2019
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47. Self-organised stripe domains and elliptical skyrmion bubbles in ultra-thin epitaxial Au0.67Pt0.33/Co/W(110) films.

Author

Camosi, Lorenzo, Garcia, Jose Peńa, Fruchart, Olivier, Pizzini, Stefania, Locatelli, Andrea, Menteş, Tevfik Onur, Genuzio, Francesca, Shaw, Justin M, Nembach, Hans T, and Vogel, Jan

Subjects
MAGNETIC anisotropy, MAGNETIC domain, CRYSTAL symmetry, SKYRMIONS, MAGNETIC properties, DOMAIN walls (Ferromagnetism), PERPENDICULAR magnetic anisotropy
Abstract

We studied the symmetry of magnetic properties and the resulting magnetic textures in ultra-thin epitaxial Au0.67Pt0.33/Co/W(110), a model system exhibiting perpendicular magnetic anisotropy and interface Dzyaloshinskii–Moriya interaction (DMI). As a peculiar feature, the C2v crystal symmetry induced by the Co/W interface results in an additional uniaxial in-plane magnetic anisotropy in the cobalt layer. Photo-emission electron microscopy with magnetic sensitivity reveals the formation of self-organised magnetic stripe domains oriented parallel to the hard in-plane magnetisation axis. We attribute this behavior to the lower domain wall energy when oriented along this axis, where both the DMI and the in-plane magnetic anisotropy favor a Néel domain wall configuration. The anisotropic domain wall energy also leads to the formation of elliptical skyrmion bubbles under a weak out-of-plane magnetic field. [ABSTRACT FROM AUTHOR]

Published
2021
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48. Antiphase Boundaries Constitute Fast Cation Diffusion Paths in SrTiO3 Memristive Devices.

Author

Heisig, Thomas, Kler, Joe, Du, Hongchu, Baeumer, Christoph, Hensling, Felix, Glöß, Maria, Moors, Marco, Locatelli, Andrea, Menteş, Tevfik Onur, Genuzio, Francesca, Mayer, Joachim, De Souza, Roger A., and Dittmann, Regina

Subjects
ANTIPHASE boundaries, METAL-insulator-metal structures, DIFFUSION, ELECTRICAL conductivity transitions, TRANSMISSION electron microscopy
Abstract

Resistive switching in transition metal oxide‐based metal‐insulator‐metal structures relies on the reversible drift of ions under an applied electric field on the nanoscale. In such structures, the formation of conductive filaments is believed to be induced by the electric‐field driven migration of oxygen anions, while the cation sublattice is often considered to be inactive. This simple mechanistic picture of the switching process is incomplete as both oxygen anions and metal cations have been previously identified as mobile species under device operation. Here, spectromicroscopic techniques combined with atomistic simulations to elucidate the diffusion and drift processes that take place in the resistive switching model material SrTiO3 are used. It is demonstrated that the conductive filament in epitaxial SrTiO3 devices is not homogenous but exhibits a complex microstructure. Specifically, the filament consists of a conductive Ti3+‐rich region and insulating Sr‐rich islands. Transmission electron microscopy shows that the Sr‐rich islands emerge above Ruddlesden–Popper type antiphase boundaries. The role of these extended defects is clarified by molecular static and molecular dynamic simulations, which reveal that the Ruddlesden–Popper antiphase boundaries constitute diffusion fast‐paths for Sr cations in the perovskites structure. [ABSTRACT FROM AUTHOR]

Published
2020
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50. In-Plane Magnetic Domains and Néel-like Domain Walls in Thin Flakes of the Room Temperature CrTe2 Van der Waals Ferromagnet.

Author

Purbawati, Anike, Coraux, Johann, Vogel, Jan, Hadj-Azzem, Abdellali, Wu, NianJheng, Bendiab, Nedjma, Jegouso, David, Renard, Julien, Marty, Laetitia, Bouchiat, Vincent, Sulpice, André, Aballe, Lucia, Foerster, Michael, Genuzio, Francesca, Locatelli, Andrea, Menteş, Tevfik Onur, Han, Zheng Vitto, Sun, Xingdan, Núñez-Regueiro, Manuel, and Rougemaille, Nicolas

Published
2020
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