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218 results on '"Shen, Chengmin"'

1. Emergent superconductivity and pair density wave at antiphase boundaries of charge density wave order in kagome metals

Author

Han, Xianghe, Chen, Hui, Tan, Hengxin, Cao, Zhongyi, Huang, Zihao, Ye, Yuhan, Zhao, Zhen, Shen, Chengmin, Yang, Haitao, Yan, Binghai, Wang, Ziqiang, and Gao, Hong-Jun

Subjects
Condensed Matter - Superconductivity
Abstract

Central to the layered kagome lattice superconductors AV3Sb5 (A = K, Cs, Rb) is a cascade of novel quantum states triggered by an unconventional charge density wave (CDW) order. The three-dimensional (3D) order involves a 2x2x2 phase coherent stacking of 2x2 charge density modulations in the kagome plane at low temperatures, exhibiting a CDW energy gap and evidence for time-reversal symmetry breaking. Here we report the discovery of emergent superconductivity and primary pair density wave (PDW) at the antiphase boundaries and stacking faults of bulk CDW order. We find that the {\pi}-phase shift dislocations can naturally appear on the surface as the Cs atoms form 2x2 superstructures that are out of phase with the bulk CDW. An incipient narrow band of surface states inside bulk CDW gap emerge close to the Fermi level where a particle-hole symmetric energy gap develops. We demonstrate that the energy gap originates from a novel quasi-2D kagome superconducting state (Tc ~ 5.4 K) intertwined with bulk CDW order, exhibiting an unprecedented vortex core spectrum and spatial modulations of the superconducting gap consistent with a 4x4 PDW. Intriguingly, the 2D kagome superconductivity is shown to be tunable on and off by atomically manipulating the Cs atoms on the surface. Our findings provide fresh new insights for understanding the interplay between the unconventional CDW and superconductivity in kagome metals and a pathway for atomic manipulation and topological defects engineering of quantum many-body states in correlated materials.

Published
2024

2. van Hove Singularity-Driven Emergence of Multiple Flat Bands in Kagome Superconductors

Author

Luo, Hailan, Zhao, Lin, Zhao, Zhen, Yang, Haitao, Huang, Yun-Peng, Liu, Hongxiong, Gu, Yuhao, Jin, Feng, Chen, Hao, Miao, Taimin, Yin, Chaohui, Shen, Chengmin, Ren, Xiaolin, Liang, Bo, Shu, Yingjie, Chen, Yiwen, Zhang, Fengfeng, Yang, Feng, Zhang, Shenjin, Peng, Qinjun, Mao, Hanqing, Liu, Guodong, Hu, Jiangping, Shi, Youguo, Xu, Zuyan, Jiang, Kun, Zhang, Qingming, Wang, Ziqiang, Gao, Hongjun, and Zhou, X. J.

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

The newly discovered Kagome superconductors AV$_3$Sb$_5$ (A=K, Rb and Cs) continue to bring surprises in generating unusual phenomena and physical properties, including anomalous Hall effect, unconventional charge density wave, electronic nematicity and time-reversal symmetry breaking. Here we report an unexpected emergence of multiple flat bands in the AV$_3$Sb$_5$ superconductors. By performing high-resolution angle-resolved photoemission (ARPES) measurements, we observed four branches of flat bands that span over the entire momentum space. The appearance of the flat bands is not anticipated from the band structure calculations and cannot be accounted for by the known mechanisms of flat band generation. It is intimately related to the evolution of van Hove singularities. It is for the first time to observe such emergence of multiple flat bands in solid materials. Our findings provide new insights in revealing the underlying mechanism that governs the unusual behaviors in the Kagome superconductors. They also provide a new pathway in producing flat bands and set a platform to study the flat bands related physics., Comment: 20 pages, 4 figures

Published
2024

3. Tuning multiple Landau Quantization in Transition-Metal Dichalcogenide with Strain

Author

Huang, Zihao, Xian, Guoyu, Xiao, Xiangbo, Han, Xianghe, Qian, Guojian, Shen, Chengmin, Yang, Haitao, Chen, Hui, Liu, Banggui, Wang, Ziqiang, and Gao, Hong-Jun

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

Landau quantization associated with the quantized cyclotron motion of electrons under magnetic field provides the effective way to investigate topologically protected quantum states with entangled degrees of freedom and multiple quantum numbers. Here we report the cascade of Landau quantization in a strained type-II Dirac semimetal NiTe2 with spectroscopic-imaging scanning tunneling microscopy. The uniform-height surfaces exhibit single-sequence Landau levels (LLs) at a magnetic field originating from the quantization of topological surface state (TSS) across the Fermi level. Strikingly, we reveal the multiple sequence of LLs in the strained surface regions where the rotation symmetry is broken. Firstprinciples calculations demonstrate that the multiple LLs attest to the remarkable lifting of the valley degeneracy of TSS by the in-plane uniaxial or shear strains. Our findings pave a pathway to tune multiple degrees of freedom and quantum numbers of TMDs via strain engineering for practical applications such as high-frequency rectifiers, Josephson diode and valleytronics., Comment: Nano Letters 23, 3274 (2023)

Published
2023
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4. Superconductivity and orbital-selective nematic order in a new titanium-based kagome metal CsTi3Bi5

Author

Yang, Haitao, Ye, Yuhan, Zhao, Zhen, Liu, Jiali, Yi, Xin-Wei, Zhang, Yuhang, Shi, Jinan, You, Jing-Yang, Huang, Zihao, Wang, Bingjie, Wang, Jing, Guo, Hui, Lin, Xiao, Shen, Chengmin, Zhou, Wu, Chen, Hui, Dong, Xiaoli, Su, Gang, Wang, Ziqiang, and Gao, Hong-Jun

Subjects
Condensed Matter - Superconductivity
Abstract

Fabrication of new types of superconductors with novel physical properties has always been a major thread in the research of superconducting materials. An example is the enormous interests generated by the cascade of correlated topological quantum states in the newly discovered vanadium-based kagome superconductors AV3Sb5 (A=K, Rb, and Cs) with a Z2 topological band structure. Here we report the successful fabrication of single-crystals of titanium-based kagome metal CsTi3Bi5 and the observation of superconductivity and electronic nematicity. The onset of the superconducting transition temperature Tc is around 4.8 K. In sharp contrast to the charge density wave superconductor AV3Sb5, we find that the kagome superconductor CsTi3Bi5 preserves translation symmetry, but breaks rotational symmetry and exhibits an electronic nematicity. The angular-dependent magnetoresistivity shows a remarkable two-fold rotational symmetry as the magnetic field rotates in the kagome plane. The scanning tunneling microscopy and spectroscopic imaging detect rotational-symmetry breaking C2 quasiparticle interference patterns (QPI) at low energies, providing further microscopic evidence for electronic nematicity. Combined with first-principle calculations, we find that the nematic QPI is orbital-selective and dominated by the Ti dxz and dyz orbitals, possibly originating from the intriguing orbital bond nematic order. Our findings in the new "135" material CsTi3Bi5 provide new directions for exploring the multi-orbital correlation effect and the role of orbital or bond order in the electron liquid crystal phases evidenced by the symmetry breaking states in kagome superconductors.

Published
2022

5. Titanium-based kagome superconductor CsTi_3Bi_5 and topological states

Author

Yang, Haitao, Zhao, Zhen, Yi, Xin-Wei, Liu, Jiali, You, Jing-Yang, Zhang, Yuhang, Guo, Hui, Lin, Xiao, Shen, Chengmin, Chen, Hui, Dong, Xiaoli, Su, Gang, and Gao, Hong-Jun

Subjects
Condensed Matter - Superconductivity
Abstract

Since the discovery of a new family of vanadium-based kagome superconductor AV3Sb5 (A=K, Rb, and Cs) with topological band structures, extensive effort has been devoted to exploring the origin of superconducting states and the intertwined orders. Meanwhile, searching for new types of superconductors with novel physical properties and higher superconducting transition temperatures has always been a major thread in the history of superconductor research. Here we report a successful fabrication and the topological states of a Titanium-based kagome metal CsTi3Bi5 (CT3B5) crystal. The as-grown CT3B5 crystal is of high quality and possesses a perfect two-dimensional kagome net of Titanium. The superconductivity of the CT3B5 crystal shows that the critical temperature Tc is of ~4.8 K. First-principle calculations predict that the CT3B5 has robust topological surface states, implying that CT3B5 is a Z2 topological kagome superconductor. This finding provides a new type of superconductors and the base for exploring the origin of superconductivity and topological states in kagome superconductors.

Published
2022

6. Titanium doped kagome superconductor CsV3-xTixSb5 and two distinct phases

Author

Yang, Haitao, Huang, Zihao, Zhang, Yuhang, Zhao, Zhen, Shi, Jinan, Luo, Hailan, Zhao, Lin, Qian, Guojian, Tan, Hengxin, Hu, Bin, Zhu, Ke, Lu, Zouyouwei, Zhang, Hua, Sun, Jianping, Cheng, Jingguagn, Shen, Chengmin, Lin, Xiao, Yan, Binghai, Zhou, Xingjiang, Wang, Ziqiang, Pennycook, Stephen J., Chen, Hui, Dong, Xiaoli, Zhou, Wu, and Gao, Hong-Jun

Subjects
Condensed Matter - Superconductivity
Abstract

The vanadium-based kagome superconductor CsV3Sb5 has attracted tremendous attention due to its unexcepted anomalous Hall effect (AHE), charge density waves (CDWs), nematicity, and a pseudogap pair density wave (PDW) coexisting with unconventional strong-coupling superconductivity (SC). The origins of CDWs, unconventional SC, and their correlation with different electronic states in this kagome system are of great significance, but so far, are still under debate. Chemical doping in the kagome layer provides one of the most direct ways to reveal the intrinsic physics, but remains unexplored. Here, we report, for the first time, the synthesis of Ti-substituted CsV3Sb5 single crystals and its rich phase diagram mapping the evolution of intertwining electronic states. The Ti atoms directly substitute for V in the kagome layers. CsV3-xTixSb5 shows two distinct SC phases upon substitution. The Ti slightly-substituted phase displays an unconventional V-shaped SC gap, coexisting with weakening CDW, PDW, AHE, and nematicity. The Ti highly-substituted phase has a U-shaped SC gap concomitant with a short-range rotation symmetry breaking CDW, while long-range CDW, twofold symmetry of in-plane resistivity, AHE, and PDW are absent. Furthermore, we also demonstrate the chemical substitution of V atoms with other elements such as Cr and Nb, showing a different modulation on the SC phase and CDWs. These findings open up a way to synthesise a new family of doped CsV3Sb5 materials, and further representing a new platform for tuning the different correlated electronic states and superconducting pairing in kagome superconductors., Comment: Science Bulletin (2022,in press)

Published
2021

7. Chirality locking charge density waves in a chiral crystal

Author

Li, Geng, Yang, Haitao, Jiang, Peijie, Wang, Cong, Cheng, Qiuzhen, Tian, Shangjie, Han, Guangyuan, Lei, Hechang, Shen, Chengmin, Lin, Xiao, Ji, Wei, Wang, Ziqiang, and Gao, Hong-Jun

Subjects
Condensed Matter - Materials Science
Abstract

In Weyl semimetals, charge density wave (CDW) order can spontaneously break the chiral symmetry, gap out the Weyl nodes, and drive the material into the axion insulating phase. Investigations have however been limited since CDWs are rarely seen in Weyl semimetals. Here, using scanning tunneling microscopy/spectroscopy, we report the discovery of a novel unidirectional CDW order on the (001) surface of chiral crystal CoSi - a unique Weyl semimetal with unconventional chiral fermions. The CDW is incommensurate with both lattice momentum and crystalline symmetry directions, and exhibits an intra unit cell {\pi} phase shift in the layer stacking direction. The tunneling spectrum shows a particle-hole asymmetric V-shaped energy gap around the Fermi level that modulates spatially with the CDW wave vector. Combined with first-principle calculations, we identify that the CDW is locked to the crystal chirality and is related by a mirror reflection between the two enantiomers of the chiral crystal. Our findings reveal a novel correlated topological quantum state in chiral CoSi crystals and raise the potential for realizing an axion insulator and exploring the unprecedented physical behaviors of unconventional chiral fermions.

Published
2021
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9. Roton pair density wave and unconventional strong-coupling superconductivity in a topological kagome metal

Author

Chen, Hui, Yang, Haitao, Hu, Bin, Zhao, Zhen, Yuan, Jie, Xing, Yuqing, Qian, Guojian, Huang, Zihao, Li, Geng, Ye, Yuhan, Ma, Sheng, Ni, Shunli, Zhang, Hua, Yin, Qiangwei, Gong, Chunsheng, Tu, Zhijun, Lei, Hechang, Tan, Hengxin, Zhou, Sen, Shen, Chengmin, Dong, Xiaoli, Yan, Binghai, Wang, Ziqiang, and Gao, Hong-Jun

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

The transition-metal kagome lattice materials host frustrated, correlated, and topological quantum states of matter. Recently, a new family of vanadium-based kagome metals AV3Sb5 (A=K, Rb, and Cs) with topological band structures has been discovered. These layered compounds are nonmagnetic and undergo charge density wave transitions before developing superconductivity at low temperatures. Here we report the observation of unconventional superconductivity and pair density wave (PDW) in CsV3Sb5 using scanning tunneling microscope/spectroscopy (STM/STS) and Josephson STS. We find that CsV3Sb5 exhibits a V-shaped pairing gap {\Delta}~0.5 meV and is a strong-coupling superconductor (2{\Delta}/kBTc~5) that coexists with 4a0 unidirectional and 2a0X2a0 charge order. Remarkably, we discover a 3Q PDW accompanied by bidirectional 4a0/3 spatial modulations of the superconducting gap, coherence peak and gap-depth in the tunneling conductance. We term this novel quantum state a roton-PDW associated with an underlying vortex-antivortex lattice that can account for the observed conductance modulations. Probing the electronic states in the vortex halo in an applied magnetic field, in strong-field that suppresses superconductivity, and in zero-field above Tc reveals that the PDW is a primary state responsible for an emergent pseudogap and intertwined electronic order. Our findings show striking analogies and distinctions to the phenomenology of high-Tc cuprate superconductors, and provide groundwork for understanding the microscopic origin of correlated electronic states and superconductivity in vanadium-based kagome metals., Comment: Nature (2021)

Published
2021
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10. A low-temperature scanning probe microscopy system with molecular beam epitaxy and optical access

Author

Wu, Ze-Bin, Gao, Zhao-Yan, Chen, Xi-Ya, Xing, Yu-Qing, Yang, Huan, Li, Geng, Ma, Ruisong, Wang, Aiwei, Yan, Jiahao, Shen, Chengmin, Du, Shixuan, Huan, Qing, and Gao, Hong-Jun

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

A low-temperature ultra-high vacuum scanning probe microscopy (SPM) system with molecular beam epitaxy capability and optical access was conceived, built, and tested in our lab. The design of the whole system is discussed here, with special emphasis on some critical parts. We made an SPM scanner head with a modified Pan-type design, enclosed by a double-layer cold room under a bath type cryostat. The scanner head is very rigid, compatible with optical access paths, and can accommodate both scanning tunneling microscope (STM) tips and atomic force sensors. Two piezo-actuated focus-lens stages are mounted on the two sides of the cold room to couple light in and out. To demonstrate the system performance, we performed STM and scanning tunneling spectroscopy studies. The herringbone reconstruction and atomic structure of Au(111) surface were clearly resolved. The dI/dV spectra of an Au(111) surface were obtained at 5 K. In addition, a periodic 2D tellurium (Te) structure was grown on Au(111) surface using MBE.

Published
2021
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11. Localized spin-orbit polaron in magnetic Weyl semimetal Co$_3$Sn$_2$S$_2$

Author

Xing, Yuqing, Shen, Jianlei, Chen, Hui, Huang, Li, Gao, Yuxiang, Zheng, Qi, Zhang, Yu-Yang, Li, Geng, Hu, Bin, Qian, Guojian, Zhang, Xianli, Fan, Peng, Ma, Ruisong, Wang, Qi, Yin, Qiangwei, Lei, Hechang, Ji, Wei, Du, Shixuan, Yang, Haitao, Shen, Chengmin, Lin, Xiao, Liu, Enke, Shen, Baogen, Wang, Ziqiang, and Gao, Hong-Jun

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

The kagome lattice Co$_3$Sn$_2$S$_2$ exhibits the quintessential topological phenomena of a magnetic Weyl semimetal such as the chiral anomaly and Fermi-arc surface states. Probing its magnetic properties is crucial for understanding this correlated topological state. Here, using spin-polarized scanning tunneling microscopy/spectroscopy (STM/S), we report the discovery of localized spin-orbit polarons (SOPs) with three-fold rotation symmetry nucleated around single-S vacancies in Co$_3$Sn$_2$S$_2$. The SOPs carry a spin-polarized magnetic moment and a large orbital magnetization of a topological origin associated with the Berry phase and the persistent circulating current. Appreciable magneto-elastic coupling of the SOP is detected by atomic force microscope and STM. Our findings suggest that the SOPs can enhance magnetism and stability of the magnetic Weyl nodes for more robust time-reversal-symmetry-breaking topological phenomena. Controlled engineering of the SOPs may pave the way toward practical applications in functional quantum devices.

Published
2020
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12. Observation of magnetic adatom-induced Majorana vortex and its hybridization with field-induced Majorana vortex in an iron-based superconductor

Author

Fan, Peng, Yang, Fazhi, Qian, Guojian, Chen, Hui, Zhang, Yu-Yang, Li, Geng, Huang, Zihao, Xing, Yuqing, Kong, Lingyuan, Liu, Wenyao, Jiang, Kun, Shen, Chengmin, Du, Shixuan, Schneeloch, John, Zhong, Ruidan, Gu, Genda, Wang, Ziqiang, Ding, Hong, and Gao, Hong-Jun

Subjects
Condensed Matter - Superconductivity
Abstract

Braiding Majorana zero modes is essential for fault-tolerant topological quantum computing. Iron-based superconductors with nontrivial band topology have recently emerged as a surprisingly promising platform for creating distinct Majorana zero modes in magnetic vortices in a single material and at relatively high temperatures. The magnetic field-induced Abrikosov vortex lattice makes it difficult to braid a set of Majorana zero modes or to study the coupling of a Majorana doublet due to overlapping wave functions. Here we report the observation of the proposed quantum anomalous vortex with integer quantized vortex core states and the Majorana zero mode induced by magnetic Fe adatoms deposited on the surface. We observe its hybridization with a nearby field-induced Majorana vortex in iron-based superconductor FeTe0.55Se0.45. We also observe vortex-free Yu-Shiba-Rusinov bound states at the Fe adatoms with a weaker coupling to the substrate, and discover a reversible transition between Yu-Shiba-Rusinov states and Majorana zero mode by manipulating the exchange coupling strength. The dual origin of the Majorana zero modes, from magnetic adatoms and external magnetic field, provides a new single-material platform for studying their interactions and braiding in superconductors bearing topological band structures., Comment: 41 pages, 14 figures This is a replacement of the origin article. We have reorder the figures, added more data and modified the words a lot while the results are not affected

Published
2020
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13. Spin pinning effect to reconstructed oxyhydroxide layer on ferromagnetic oxides for enhanced water oxidation.

Author

Wu, Tianze, Ren, Xiao, Sun, Yuanmiao, Sun, Shengnan, Xian, Guoyu, Scherer, Günther G, Fisher, Adrian C, Mandler, Daniel, Ager, Joel W, Grimaud, Alexis, Wang, Junling, Shen, Chengmin, Yang, Haitao, Gracia, Jose, Gao, Hong-Jun, and Xu, Zhichuan J

Abstract

Producing hydrogen by water electrolysis suffers from the kinetic barriers in the oxygen evolution reaction (OER) that limits the overall efficiency. With spin-dependent kinetics in OER, to manipulate the spin ordering of ferromagnetic OER catalysts (e.g., by magnetization) can reduce the kinetic barrier. However, most active OER catalysts are not ferromagnetic, which makes the spin manipulation challenging. In this work, we report a strategy with spin pinning effect to make the spins in paramagnetic oxyhydroxides more aligned for higher intrinsic OER activity. The spin pinning effect is established in oxideFM/oxyhydroxide interface which is realized by a controlled surface reconstruction of ferromagnetic oxides. Under spin pinning, simple magnetization further increases the spin alignment and thus the OER activity, which validates the spin effect in rate-limiting OER step. The spin polarization in OER highly relies on oxyl radicals (O∙) created by 1st dehydrogenation to reduce the barrier for subsequent O-O coupling.

Published
2021

14. Nearly quantized conductance plateau of vortex zero mode in an iron-based superconductor

Author

Zhu, Shiyu, Kong, Lingyuan, Cao, Lu, Chen, Hui, Papaj, Michal, Du, Shixuan, Xing, Yuqing, Liu, Wenyao, Wang, Dongfei, Shen, Chengmin, Yang, Fazhi, Schneeloch, John, Zhong, Ruidan, Gu, Genda, Fu, Liang, Zhang, Yu-Yang, Ding, Hong, and Gao, Hong-Jun

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

Majorana zero-modes (MZMs) are spatially-localized zero-energy fractional quasiparticles with non-Abelian braiding statistics that hold a great promise for topological quantum computing. Due to its particle-antiparticle equivalence, an MZM exhibits robust resonant Andreev reflection and 2e2/h quantized conductance at low temperature. By utilizing variable-tunnel-coupled scanning tunneling spectroscopy, we study tunneling conductance of vortex bound states on FeTe0.55Se0.45 superconductors. We report observations of conductance plateaus as a function of tunnel coupling for zero-energy vortex bound states with values close to or even reaching the 2e2/h quantum conductance. In contrast, no such plateau behaviors were observed on either finite energy Caroli-de Genne-Matricon bound states or in the continuum of electronic states outside the superconducting gap. This unique behavior of the zero-mode conductance reaching a plateau strongly supports the existence of MZMs in this iron-based superconductor, which serves as a promising single-material platform for Majorana braiding at a relatively high temperature.

Published
2019
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15. Gold‐template‐assisted Mechanical Exfoliation of Large‐area 2D layers Enables Efficient and Precise Construction of Moiré Superlattices

Author

Wu, Kang, primary, Wang, Hao, additional, Yang, Meng, additional, Liu, Li, additional, Sun, Zhenyu, additional, Hu, Guojing, additional, Song, Yanpeng, additional, Han, Xin, additional, Guo, Jiangang, additional, Wu, Kehui, additional, Feng, Baojie, additional, Shen, Chengmin, additional, Huang, Yuan, additional, Shi, Youguo, additional, Cheng, Zhigang, additional, Yang, Haitao, additional, Bao, Lihong, additional, Pantelides, Sokrates T., additional, and Gao, Hong‐Jun, additional

Published
2024
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18. Epitaxial Semiconducting Cu2Se Nanosheets on Cu(111) Substrates Using Direct Deep Selenization.

Author

Song, Zhipeng, Yi, Juxia, Shi, Jinan, Xu, Hongyu, Bian, Ce, Shen, Chengmin, Zhang, Yu-Yang, Zhou, Wu, Du, Shixuan, Lu, Hongliang, Lin, Xiao, and Gao, Hong-Jun

Abstract

Previous studies have reported that reactions between selenium (Se) and metal substrates can lead to the formation of monolayer materials, but no studies have reported on the thickness that can be achieved for ordered films formed by this method. Here, we report that 2D layered Cu2Se can be successfully fabricated on the Cu(111) surface through Se deposition at room temperature using molecular beam epitaxy (MBE). Using aberration-corrected scanning transmission electron microscopy (STEM), we obtained the first cross-sectional STEM image with atomic resolution. This image serves as direct evidence supporting the validity of the theoretical model for layered Cu2Se. Our findings demonstrate that the ordered structure can achieve a thickness of approximately 38 nm under room temperature conditions, altering the prevailing perception of the formation of monolayer or few-layer structures through the reaction between Se and Cu(111) substrate. Our work provides valuable insights for the synthesis of layered Cu2Se with specific thicknesses, a novel two-dimensional semiconductor material, which holds potential applications in future electronic devices. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Graphene-Silicon Layered Structures on Single-crystalline Ir(111) Thin Films

Author

Que, Yande, Zhang, Yong, Wang, Yeliang, Huang, Li, Xu, Wenyan, Tao, Jing, Wu, Lijun, Zhu, Yimei, Kim, Kisslinger, Weinl, Michael, Schreck, Matthias, Shen, Chengmin, Du, Shixuan, Liu, Yunqi, and Gao, H. -J.

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

Single-crystalline transition metal films are ideal playing fields for the epitaxial growth of graphene and graphene-base materials. Graphene-silicon layered structures were successfully constructed on Ir(111) thin film on Si substrate with an yttria-stabilized zirconia buffer layer via intercalation approach. Such hetero-layered structures are compatible with current Si-based microelectronic technique, showing high promise for applications in future micro- and nano-electronic devices., Comment: 14 pages, 6 figures

Published
2015
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22. An innovative way of etching MoS2: Characterization and mechanistic investigation

Author

Huang, Yuan, Wu, Jing, Xu, Xiangfan, Ho, Yuda, Ni, Guangxin, Zou, Qiang, Koon, Gavin Kok Wai, Zhao, Weijie, Neto, A. H. Castro, Eda, Goki, Shen, Chengmin, and Özyilmaz, Barbaros

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report a systematic study of the etching of MoS2 crystals by using XeF2 as a gaseous reactant. By controlling the etching process, monolayer MoS2 with uniform morphology can be obtained. The Raman and photoluminescence spectra of the resulting material were similar to those of exfoliated MoS2. Utilizing this strategy, different patterns such as a Hall bar structure and a hexagonal array can be realized. Furthermore, the etching mechanism was studied by introducing graphene as an etching mask. We believe our technique opens an easy and controllable way of etching MoS2, which can be used to fabricate complex nanostructures, such as nanoribbons, quantum dots and transistor structures. This etching process using XeF2 can also be extended to other interesting two-dimensional crystals., Comment: 22 pages, 9 figures

Published
2013
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23. Pressure-induced Superconductivity in Crystalline Boron Nanowires

Author

Sun, Liling, Matsuoka, Takahiro, Tamari, Yasuyuki, Shimizu, Katsuya, Tian, Jifa, Tian, Yuan, Zhang, Chendong, Shen, Chengmin, Yi, Wei, Gao, Hongjun, Li, Jianqi, Dong, Xiaoli, and Zhao, Zhongxian

Subjects
Condensed Matter - Superconductivity
Abstract

We report high-pressure induced superconductivity in boron nanowires (BNWs) with rhombohedral crystal structure. Obviously different from bulk rhombohedral boron, these BNWs show a semiconductor-metal transition at much lower pressure than bulk boron. Also, we found these BNWs become superconductors with Tc=1.5 K at 84 GPa, at the pressure of which bulk boron is still a semiconductor, via in-situ resistance measurements in a diamond anvil cell. With increasing pressure, Tc of the BNWs increases. The occurrence of superconductivity in the BNWs at a pressure as low as 84 GPa probably arises from the size effect., Comment: 17 pages, 5 figures

Published
2009
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24. Nanoscale Manipulation of Wrinkle-Pinned Vortices in Iron-Based Superconductors

Author

Fan, Peng, primary, Chen, Hui, additional, Zhou, Xingtai, additional, Cao, Lu, additional, Li, Geng, additional, Li, Meng, additional, Qian, Guojian, additional, Xing, Yuqing, additional, Shen, Chengmin, additional, Wang, Xiancheng, additional, Jin, Changqing, additional, Gu, Genda, additional, Ding, Hong, additional, and Gao, Hong-Jun, additional

Published
2023
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25. Synthesis of ultra pure Co3Sn2S2 crystals

Author

Gao, Hong-Jun, primary, Lv, Senhao, additional, Guo, Hui, additional, Yang, Jiangang, additional, Zhu, Ke, additional, Zhao, Lin, additional, Li, Yan, additional, Guzman, Roger, additional, Kong, Xianghua, additional, Xian, Guoyu, additional, Cheng, Qiuzhen, additional, Zheng, Qi, additional, Huang, Li, additional, Xing, Yuqing, additional, Chen, Hui, additional, Zhao, Zhen, additional, Qi, Qi, additional, Pan, Lulu, additional, Song, Linxuan, additional, Shen, Chengmin, additional, Zhao, Dongliang, additional, Lin, Xiao, additional, Pennycook, Stephen, additional, Zhou, Wu, additional, Ji, Wei, additional, He, Jun, additional, Zhou, Xingjiang, additional, and Yang, Haitao, additional

Published
2023
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27. Reconstruction of Thiospinel to Active Sites and Spin Channels for Water Oxidation

Author

Wu, Tianze, primary, Sun, Yuanmiao, additional, Ren, Xiao, additional, Wang, Jiarui, additional, Song, Jiajia, additional, Pan, Yangdan, additional, Mu, Yongbiao, additional, Zhang, Jianshuo, additional, Cheng, Qiuzhen, additional, Xian, Guoyu, additional, Xi, Shibo, additional, Shen, Chengmin, additional, Gao, Hong‐Jun, additional, Fisher, Adrian C., additional, Sherburne, Matthew P., additional, Du, Yonghua, additional, Ager, Joel W., additional, Gracia, Jose, additional, Yang, Haitao, additional, Zeng, Lin, additional, and Xu, Zhichuan J., additional

Published
2022
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28. Titanium doped kagome superconductor CsV3−Ti Sb5 and two distinct phases

Author

Yang, Haitao, primary, Huang, Zihao, additional, Zhang, Yuhang, additional, Zhao, Zhen, additional, Shi, Jinan, additional, Luo, Hailan, additional, Zhao, Lin, additional, Qian, Guojian, additional, Tan, Hengxin, additional, Hu, Bin, additional, Zhu, Ke, additional, Lu, Zouyouwei, additional, Zhang, Hua, additional, Sun, Jianping, additional, Cheng, Jinguang, additional, Shen, Chengmin, additional, Lin, Xiao, additional, Yan, Binghai, additional, Zhou, Xingjiang, additional, Wang, Ziqiang, additional, Pennycook, Stephen J., additional, Chen, Hui, additional, Dong, Xiaoli, additional, Zhou, Wu, additional, and Gao, Hong-Jun, additional

Published
2022
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36. Observation of an Incommensurate Charge Density Wave in Monolayer TiSe2/CuSe/Cu(111) Heterostructure

Author

Song, Zhipeng, primary, Huang, Jierui, additional, Zhang, Shuai, additional, Cao, Yun, additional, Liu, Chen, additional, Zhang, Ruizi, additional, Zheng, Qi, additional, Cao, Lu, additional, Huang, Li, additional, Wang, Jiaou, additional, Qian, Tian, additional, Ding, Hong, additional, Zhou, Wu, additional, Zhang, Yu-Yang, additional, Lu, Hongliang, additional, Shen, Chengmin, additional, Lin, Xiao, additional, Du, Shixuan, additional, and Gao, Hong-Jun, additional

Published
2022
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38. Line defects in monolayer TiSe2 with adsorption of Pt atoms potentially enable excellent catalytic activity

Author

Song, Zhipeng, primary, Yi, Juxia, additional, Qi, Jing, additional, Zheng, Qi, additional, Zhu, Zhili, additional, Tao, Lei, additional, Cao, Yun, additional, Li, Yan, additional, Gao, Zhaoyan, additional, Zhang, Ruizi, additional, Huang, Li, additional, Li, Geng, additional, Xu, Ziqiang, additional, Wu, Xu, additional, Wang, Yeliang, additional, Shen, Chengmin, additional, Zhang, Yu-Yang, additional, Lu, Hongliang, additional, Lin, Xiao, additional, Du, Shixuan, additional, and Gao, Hong-Jun, additional

Published
2021
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40. Roton pair density wave in a strong-coupling kagome superconductor

Author

Chen, Hui, primary, Yang, Haitao, additional, Hu, Bin, additional, Zhao, Zhen, additional, Yuan, Jie, additional, Xing, Yuqing, additional, Qian, Guojian, additional, Huang, Zihao, additional, Li, Geng, additional, Ye, Yuhan, additional, Ma, Sheng, additional, Ni, Shunli, additional, Zhang, Hua, additional, Yin, Qiangwei, additional, Gong, Chunsheng, additional, Tu, Zhijun, additional, Lei, Hechang, additional, Tan, Hengxin, additional, Zhou, Sen, additional, Shen, Chengmin, additional, Dong, Xiaoli, additional, Yan, Binghai, additional, Wang, Ziqiang, additional, and Gao, Hong-Jun, additional

Published
2021
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41. Nearly quantized conductance plateau of vortex zero mode in an iron-based superconductor

Author

Massachusetts Institute of Technology. Department of Physics, Zhu, Shiyu, Kong, Lingyuan, Cao, Lu, Chen, Hui, Papaj, Michal, Du, Shixuan, Xing, Yuqing, Liu, Wenyao, Wang, Dongfei, Shen, Chengmin, Yang, Fazhi, Schneeloch, John, Zhong, Ruidan, Gu, Genda, Fu, Liang, Zhang, Yu-Yang, Ding, Hong, Gao, Hong-Jun, Massachusetts Institute of Technology. Department of Physics, Zhu, Shiyu, Kong, Lingyuan, Cao, Lu, Chen, Hui, Papaj, Michal, Du, Shixuan, Xing, Yuqing, Liu, Wenyao, Wang, Dongfei, Shen, Chengmin, Yang, Fazhi, Schneeloch, John, Zhong, Ruidan, Gu, Genda, Fu, Liang, Zhang, Yu-Yang, Ding, Hong, and Gao, Hong-Jun

Abstract

Majorana zero modes (MZMs) are spatially localized, zero-energy fractional quasiparticles with non-Abelian braiding statistics that hold promise for topological quantum computing. Owing to the particle-antiparticle equivalence, MZMs exhibit quantized conductance at low temperature. By using variable-tunnel-coupled scanning tunneling spectroscopy, we studied tunneling conductance of vortex bound states on FeTe0.55Se0.45 superconductors. We report observations of conductance plateaus as a function of tunnel coupling for zero-energy vortex bound states with values close to or even reaching the 2e2/h quantum conductance (where e is the electron charge and h is Planck's constant). By contrast, no plateaus were observed on either finite energy vortex bound states or in the continuum of electronic states outside the superconducting gap. This behavior of the zero-mode conductance supports the existence of MZMs in FeTe0.55Se0.45

Published
2021

47. Line defects in monolayer TiSe2 with adsorption of Pt atoms potentially enable excellent catalytic activity.

Author

Song, Zhipeng, Yi, Juxia, Qi, Jing, Zheng, Qi, Zhu, Zhili, Tao, Lei, Cao, Yun, Li, Yan, Gao, Zhaoyan, Zhang, Ruizi, Huang, Li, Li, Geng, Xu, Ziqiang, Wu, Xu, Wang, Yeliang, Shen, Chengmin, Zhang, Yu-Yang, Lu, Hongliang, Lin, Xiao, and Du, Shixuan

Abstract

Two-dimensional (2D) materials with defects are desired for catalysis after the adsorption of monodispersed noble metal atoms. High-performance catalysts with the absolute value of Gibbs free energy (∣∆GH∣) close to zero, is one of the ultimate goals in the catalytic field. Here, we report the formation of monolayer titanium selenide (TiSe2) with line defects. The low-temperature scanning tunneling microscopy/spectroscopy (STM/S) measurements revealed the structure and electronic states of the line defect. Density functional theory (DFT) calculation results confirmed that the line defects were induced by selenium vacancies and the STM simulation was in good agreement with the experimental results. Further, DFT calculations show that monolayer TiSe2 with line defects have good catalytic activity for hydrogen evolution reaction (HER). If the defects are decorated with single Pt atom, the HER catalytic activity will be enhanced dramatically (∣∆GH∣ = 0.006 eV), which is much better than Pt metal (∣∆GH∣ = 0.09 eV). Line defects in monolayer TiSe2/Au(111) provide a wonderful platform for the design of high-performance catalysts. [ABSTRACT FROM AUTHOR]

Published
2022
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48. Roton pair density wave and unconventional strong-coupling superconductivity in a topological kagome metal

Author

Gao, Hong-Jun, primary, Chen, Hui, additional, Yang, Haitao, additional, Hu, Bin, additional, Zhao, Zhen, additional, Yuan, Jie, additional, Xing, Yuqing, additional, Qian, Guojian, additional, Huang, Zihao, additional, Li, Geng, additional, Ye, Yuhan, additional, Ma, Sheng, additional, Ni, Shunli, additional, Zhang, Hua, additional, Yin, Qiangwei, additional, Gong, Chunsheng, additional, Tu, Zhijun, additional, Lei, Hechang, additional, Tan, Hengxin, additional, Zhou, Sen, additional, Shen, Chengmin, additional, Dong, Xiaoli, additional, Yan, Binghai, additional, and Wang, Ziqiang, additional

Published
2021
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