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1. Room-temperature ferromagnetism in epitaxial bilayer FeSb/SrTiO3(001) terminated with a Kagome lattice

Author

Zhang, Huimin, Liu, Qinxi, Deng, Liangzi, Ma, Yanjun, Daneshmandi, Samira, Cen, Cheng, Zhang, Chenyu, Voyles, Paul M., Jiang, Xue, Zhao, Jijun, Chu, Ching-Wu, Gai, Zheng, and Li, Lian

Subjects
Condensed Matter - Materials Science
Abstract

Two-dimensional (2D) magnets exhibit unique physical properties for potential applications in spintronics. To date, most 2D ferromagnets are obtained by mechanical exfoliation of bulk materials with van der Waals interlayer interactions, and the synthesis of single or few-layer 2D ferromagnets with strong interlayer coupling remains experimentally challenging. Here, we report the epitaxial growth of 2D non-van der Waals ferromagnetic bilayer FeSb on SrTiO3(001) substrates stabilized by strong coupling to the substrate, which exhibits in-plane magnetic anisotropy and a Curie temperature above 300 K. In-situ low-temperature scanning tunneling microscopy/spectroscopy and density-functional theory calculations further reveal that a Fe Kagome layer terminates the bilayer FeSb. Our results open a new avenue for further exploring emergent quantum phenomena from the interplay of ferromagnetism and topology for application in spintronics.

Published
2023
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7. Engineering of Ferroic Orders in Thin Films by Anionic Substitution

Author

Garcia-Castro, A. C., Ma, Yanjun, Romestan, Zachary, Bousquet, Eric, Cen, Cheng, and Romero, Aldo H.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter
Abstract

Multiferroics are a unique class of materials where magnetic and ferroelectric orders coexist. The research on multiferroics contributes significantly to the fundamental understanding of the strong correlations between different material degrees of freedom and provides an energy-efficient route toward the electrical control of magnetism. While multiple ABO3 oxide perovskites have been identified as being multiferroic, their magnetoelectric coupling strength is often weak, necessitating the material search in different compounds. Here, we report the observation of room-temperature multiferroic orders in multi-anion SrNbO3-xNx thin films. In these samples, the multi-anion state enables the room-temperature ferromagnetic ordering of the Nb d-electrons. Simultaneously, we find ferroelectric responses that originate from the structural symmetry breaking associated with both the off-center displacements of Nb and the geometric displacements of Sr, depending on the relative O-N arrangements within the Nb-centered octahedra. Our findings not only diversify the available multiferroic material pool but also demonstrate a new multiferroism design strategy via multi-anion engineering.

Published
2021
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8. Indium Antimonide, constraints on practicality as a magneto-optical platform for topological surface plasmon polaritons

Author

Pakniyat, Samaneh, Liang, Yi, Xiang, Yinxiao, Cen, Cheng, Chen, Jun, and Hanson, George W.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Magnetic-field-biased indium antimonide (InSb) is one of the most widely-discussed materials for supporting nonreciprocal surface plasmon polaritons (SPPs), which have recently been shown to be topological. In this work, we provide a critical assessment of InSb as a magneto-optical SPP platform, and show that it is only viable under a narrow set of conditions., Comment: 6 pages, 4 figures and 2 tables

Published
2020
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13. Terahertz response of gadolinium gallium garnet (GGG) and gadolinium scandium gallium garnet (SGGG)

Author

Sabbaghi, Mohsen, Hanson, George W., Weinert, Michael, Shi, Fan, and Cen, Cheng

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

We report the magneto-optical response of Gadolinium Gallium Garnet (GGG) and Gadolinium Scandium Gallium Garnet (SGGG) at frequencies ranging from $300 \, \mathrm{GHz}$ to $1 \, \mathrm{THz}$, and determine the material response tensor. Within this frequency window, the materials exhibit nondispersive and low-loss optical responses. At low temperatures, significant THz Faraday rotations are found in the (S)GGG samples. Such strong gyroelectric response is likely associated with the high-spin paramagnetic state of the Gd$^{3+}$ ions. A model of the material response tensor is determined, together with the Verdet and magneto-optic constants., Comment: 9 pages, 5 figures and 3 tables

Published
2020
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22. Single-site catalyst promoters accelerate metal-catalyzed nitroarene hydrogenation.

Author

Wang, Liang, Guan, Erjia, Zhang, Jian, Yang, Junhao, Zhu, Yihan, Han, Yu, Yang, Ming, Cen, Cheng, Fu, Gang, Gates, Bruce C, and Xiao, Feng-Shou

Abstract

Atomically dispersed supported metal catalysts are drawing wide attention because of the opportunities they offer for new catalytic properties combined with efficient use of the metals. We extend this class of materials to catalysts that incorporate atomically dispersed metal atoms as promoters. The catalysts are used for the challenging nitroarene hydrogenation and found to have both high activity and selectivity. The promoters are single-site Sn on TiO2 supports that incorporate metal nanoparticle catalysts. Represented as M/Sn-TiO2 (M = Au, Ru, Pt, Ni), these catalysts decidedly outperform the unpromoted supported metals, even for hydrogenation of nitroarenes substituted with various reducible groups. The high activity and selectivity of these catalysts result from the creation of oxygen vacancies on the TiO2 surface by single-site Sn, which leads to efficient, selective activation of the nitro group coupled with a reaction involving hydrogen atoms activated on metal nanoparticles.

Published
2018

25. Room temperature ferroelectricity in fluoroperovskite thin films.

Author

Yang, Ming, Kc, Amit, Garcia-Castro, AC, Borisov, Pavel, Bousquet, E, Lederman, David, Romero, Aldo H, and Cen, Cheng

Subjects
Biochemistry and Cell Biology, Other Physical Sciences
Abstract

The NaMnF3 fluoride-perovskite has been found, theoretically, to be ferroelectric under epitaxial strain becoming a promising alternative to conventional oxides for multiferroic applications. Nevertheless, this fluoroperovskite has not been experimentally verified to be ferroelectric so far. Here we report signatures of room temperature ferroelectricity observed in perovskite NaMnF3 thin films grown on SrTiO3. Using piezoresponse force microscopy, we studied the evolution of ferroelectric polarization in response to external and built-in electric fields. Density functional theory calculations were also performed to help understand the strong competition between ferroelectric and paraelectric phases as well as the profound influences of strain. These results, together with the magnetic order previously reported in the same material, pave the way to future multiferroic and magnetoelectric investigations in fluoroperovskites.

Published
2017

29. Ultrafast observation of electron hybridization and in-gap states formation in Kondo insulator SmB6

Author

Adhikari, Sanjay, Ma, Yanjun, Fisk, Zachary, Xia, Jing, Eom, Chang-Beom, and Cen, Cheng

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

SmB6 is a promising candidate for topological Kondo insulator. In this letter, we report ultrafast carrier dynamics of SmB6. Two characteristic temperatures: T1=100 K and T2= 20 K are observed. T1 corresponds to the opening of the f-d hybridization gap revealed by an abrupt disappearance of terahertz f-band plasmon oscillations. Between T1 and T2, a phonon bottleneck effect dominates the photocarrier relaxation processes. Below T2, we observe the formation of in-gap states, which are strongly affected by optically injected hot electrons and the transient electron temperature change.

Published
2015

33. Multiferroic BaCoF4 in Thin Film Form: Ferroelectricity, Magnetic Ordering, and Strain

Author

Borisov, Pavel, Johnson, Trent A, García-Castro, Andrés Camilo, KC, Amit, Schrecongost, Dustin, Cen, Cheng, Romero, Aldo H, and Lederman, David

Subjects
Engineering, Materials Engineering, Chemical Sciences, Physical Sciences, multiferroics, thin films, fluorides, ferroelectricity, antiferromagnetism, Nanoscience & Nanotechnology, Chemical sciences, Physical sciences
Abstract

Multiferroic materials have simultaneous magnetic and ferroelectric long-range orders and can be potentially useful for a wide range of applications. Conventional ferroelectricity in oxide perovskites favors nonmagnetic electronic configurations of transition metal ions, thus limiting the number of intrinsic multiferroic materials. On the other hand, this is not necessarily true for multiferroic fluorides. Using molecular beam epitaxy, we demonstrate for the first time that the multiferroic orthorhombic fluoride BaCoF4 can be synthesized in thin film form. Ferroelectric hysteresis measurements and piezoresponse force microscopy show that the films are indeed ferroelectric. From structural information, magnetic measurements, and first-principles calculations, a modified magnetic ground state is identified which can be represented as a combination of bulk collinear antiferromagnetism with two additional canted spin orders oriented along orthogonal axes of the BaCoF4 unit cell. The calculations indicate that an anisotropic epitaxial strain is responsible for this unusual magnetic ground state.

Published
2016

40. Superconducting LaAlO3/SrTiO3 Nanowires

Author

Veazey, Joshua P., Cheng, Guanglei, Irvin, Patrick, Cen, Cheng, Bogorin, Daniela F., Bi, Feng, Huang, Mengchen, Bark, Chung-Wung, Ryu, Sangwoo, Cho, Kwang-Hwan, Eom, Chang-Beom, and Levy, Jeremy

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

We report superconductivity in quasi-1D nanostructures created at the LaAlO3/SrTiO3 interface. Nanostructures having line widths w~10 nm are formed from the parent two-dimensional electron liquid using conductive atomic force microscope lithography. Nanowire cross-sections are small compared to the superconducting coherence length in LaAlO3/SrTiO3 (w<

Published
2012
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41. Quantum transport in oxide nanostructures

Author

Cen, Cheng, Bogorin, Daniela F., Srinivasa, Vanita, and Levy, Jeremy

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

We describe magnetotransport experiments performed on Hall crosses made from quantum wires at LaAlO3/SrTiO3 interfaces. Shubnikov-de Haas oscillations measured in a 14-nm wide structure exhibit modulations that are consistent with spin-orbit coupling or valley degeneracies. Hall measurements performed on the 6 nm-wide Hall cross reveal dissipative coupling to magnetic phases. Hall plateaus are observed that deviate significantly from two-dimensional quantum Hall counterparts. Non-monotonic dips in the Hall resistance are attributed to one-dimensional confinement and spin-orbit coupling.

Published
2011

42. LaAlO3/SrTiO3-Based Device Concepts

Author

Bogorin, Daniela F., Irvin, Patrick, Cen, Cheng, and Levy, Jeremy

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

This is a book chapter that covers several device concepts based on the LaAlO3/SrTiO3 interface., Comment: 25 pages, 17 figures

Published
2010

43. Coherent soft-mode phonon generation and detection in ultrathin SrTiO3 grown directly on silicon

Author

Cen, Cheng, Warusawithana, Maitri P., Schlom, Darrell G., and Levy, Jeremy

Subjects
Condensed Matter - Materials Science
Abstract

Time-resolved two color pump-probe polarization spectroscopy was performed at room temperature on SrTiO3 films grown directly on Si with film thickness varying from 2 nm to 7.8 nm. The E soft mode with a characteristic frequency of 0.2 THz is impulsively generated and measured in these coherently strained tetragonal phase SrTiO3 thin films. Another over-damped signal observed indicates the possible relaxational hopping of Ti ion between double potential wells. The dependence of the coherent phonon signal on pump and probe laser polarization helps to identify the phonon modes.

Published
2010

44. 'Water-cycle' mechanism for writing and erasing nanostructures at the LaAlO3/SrTiO3 interface

Author

Bi, Feng, Bogorin, Daniela F., Cen, Cheng, Bark, Chung Wung, Park, Jae-Wan, Eom, Chang-Beom, and Levy, Jeremy

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

Nanoscale control of the metal-insulator transition in LaAlO3/ SrTiO3 heterostructures can be achieved using local voltages applied by a conductive atomic-force microscope probe. One proposed mechanism for the writing and erasing process involves an adsorbed H2O layer at the top LaAlO3 surface. In this picture, water molecules dissociates into OH- and H+ which are then selectively removed by a biased AFM probe. To test this mechanism, writing and erasing experiments are performed in a vacuum AFM using various gas mixtures. Writing ability is suppressed in those environments where H2O is not present. The stability of written nanostructures is found to be strongly associated with the ambient environment. The self-erasure process in air can be strongly suppressed by creating a modest vacuum or replacing the humid air with dry inert gas. These experiments provide strong constraints for theories of both the writing process as well as the origin of interfacial conductance., Comment: 11 pages, 3 figures

Published
2010
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45. Rewritable nanoscale oxide photodetector

Author

Irvin, Patrick, Ma, Yanjun, Bogorin, Daniela F., Cen, Cheng, Bark, Chung Wung, Folkman, Chad M., Eom, Chang-Beom, and Levy, Jeremy

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Nanophotonic devices seek to generate, guide, and/or detect light using structures whose nanoscale dimensions are closely tied to their functionality. Semiconducting nanowires, grown with tailored optoelectronic properties, have been successfully placed into devices for a variety of applications. However, the integration of photonic nanostructures with electronic circuitry has always been one of the most challenging aspects of device development. Here we report the development of rewritable nanoscale photodetectors created at the interface between LaAlO3 and SrTiO3. Nanowire junctions with characteristic dimensions 2-3 nm are created using a reversible AFM writing technique. These nanoscale devices exhibit a remarkably high gain for their size, in part because of the large electric fields produced in the gap region. The photoconductive response is gate-tunable and spans the visible-to-near-infrared regime. The ability to integrate rewritable nanoscale photodetectors with nanowires and transistors in a single materials platform foreshadows new families of integrated optoelectronic devices and applications., Comment: 5 pages, 5 figures. Supplementary Information 7 pages, 9 figures

Published
2010
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46. Cooper Pair Writing at the LaAlO3/SrTiO3 Interface

Author

Cen, Cheng, Bogorin, Daniela F., Bark, Chung Wung, Folkman, Chad M., Eom, Chang-Beom, and Levy, Jeremy

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

The LaAlO3/SrTiO3 interface provides a unique platform for controlling the electronic properties of the superconducting semiconductor SrTiO3. Prior investigations have shown that two-dimensional superconductivity can be produced at the LaAlO3/SrTiO3 interface and tuned electrostatically. The recently demonstrated reversible control of the metal-insulator transition at the same interface using conductive atomic force microscopy (c-AFM) raises the question of whether this room-temperature technique can produce structures that exhibit superconducting, normal metallic and insulating phases at sub-Kelvin temperatures. Here we report low-temperature magnetotransport experiments on conducting structures defined at an otherwise insulating LaAlO3/SrTiO3 interface. A quantum phase transition associated with the formation of Cooper pairs is observed in these predefined structures at sub-Kelvin temperatures. However, a finite resistance remains even at the lowest temperature. At higher magnetic fields, interfaces with high mobility also exhibit strong Shubnikov-de Haas oscillations as well as a larger Ginsburg-Landau coherence length. Cooper pair localization, spin-orbit coupling, and finite-size effects may factor into an explanation for some of the unusual properties observed., Comment: 19 pages, 8 figures

Published
2010

47. Thermal Activation and Quantum Field Emission in a Sketch-Based Oxide Nano Transistor

Author

Cen, Cheng, Bogorin, Daniela F., and Levy, Jeremy

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

The interface between polar LaAlO3 and non-polar SrTiO3 exhibits a remarkable variety of electronic behavior associated with the formation of an interfacial quasi-two-dimensional electron gas (q-2DEG). By "sketching" patterns of charge on the top LaAlO3 surface, the LaAlO3/SrTiO3 interface conductance can be controlled with near-atomic spatial resolution. Using this technique, a sketch-based oxide nanotransistor (SketchFET) was demonstrated with a minimum feature size of just two nanometers. Here we report direct measurements of the potential barriers and electronic coupling between nanowire segments within a SketchFET device. Near room temperature, switching is governed by thermally activated field emission from the nanowire gate. Below T=150 K, a crossover to quantum field emission is observed that is sensitive to structural phase transitions in the SrTiO3 layer. This direct measurement of the source-drain and gate-drain energy barriers is crucial for the development of room-temperature logic and memory elements and low-temperature quantum devices., Comment: 19 pages, 8 figures

Published
2010
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48. Nanoscale rectification at the LaAlO3/SrTiO3 interface

Author

Bogorin, Daniela F., Bark, Chung Wung, Jang, Ho Won, Cen, Cheng, Folkman, Chad M., Eom, Chang-Beom, and Levy, Jeremy

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Nanoscale control over electron transport at scales that are comparable to the Fermi wavelength or mean-free path can lead to new families of electronic devices. Here we report electrical rectification in nanowires formed by nanoscale control of the metal-insulator transition at the interface between LaAlO3 and SrTiO3. Controlled in-plane asymmetry in the confinement potential produces electrical rectification in the nanowire, analogous to what occurs naturally for Schottky diodes or by design in structures with engineered structural inversion asymmetry. Nanostructures produced in this manner may be useful for electro-optic applications or in spintronic devices.

Published
2009
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49. Release Characteristics of Small-Sized Microplastics in Bottled Drinks Using Flow Cytometry Sorting and Nile Red Staining.

Author

Zhou, Peixuan, Zhang, Kejia, Zhang, Tuqiao, Cen, Cheng, Zheng, Yingying, and Shuai, Youwen

Subjects
STAINS & staining (Microscopy), FLOW cytometry, MICROPLASTICS, IMPACT testing, POLLUTION, BOTTLED water, POLYETHYLENE terephthalate
Abstract

Small-sized microplastics (MPs) pose concerns about potential risks to both the environment and human health. However, research on MP pollution is hampered by limitations in the detection techniques. Also, few studies have provided insight into the release of small-sized MPs from disposable polyethylene terephthalate (PET)-bottled drinks for outdoor usage. Thus, PET bottles' potential to release small MPs sized 1–100 μm outdoors was studied in relation to physical and chemical parameters (temperature, sunlight irradiation, and drink characteristics) using flow cytometry and Nile Red dye. The results showed that temperatures below 80 °C had little effect on the release of MPs from PET bottles. Sunlight irradiation and alkalinity were prone to promote the generation of MPs, mostly 1–5 μm in size. Moreover, the combined impact test implied that two pairings—acidity with temperature and alkalinity with sunlight—positively affected MP release, with maximum releases of 21,622 ± 2477 particles/L and 31,081 ± 7173 particles/L, respectively. Based on the rapid quantification of small-sized MPs using flow cytometry after Nile Red selection, the results hereby presented will assist researchers in reducing MP release and aid them in the evaluation of MPs' contamination of aquatic environments. [ABSTRACT FROM AUTHOR]

Published
2024
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