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1. Checkerboard order state in superconducting FeSe/SrTiO3(001) monolayer

Author

Xue, Cheng-Long, Yuan, Qian-Qian, Xu, Yong-Jie, Li, Qi-Yuan, Dou, Li-Guo, Jia, Zhen-Yu, and Li, Shao-Chun

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

Ordered electronic states have been extensively explored in cuprates and iron-based unconventional superconductors, but seldom observed in the epitaxial FeSe/SrTiO3(001) monolayer (FeSe/STO) with an enhanced superconducting transition temperature (Tc). Here, by using scanning tunneling microscopy/ spectroscopy (STM/STS), we reveal a checkerboard charge order in the epitaxial FeSe/STO monolayer, with a period of four times the inter-Fe-atom distance along two perpendicular directions of the Fe lattice. This ordered state is uniquely present in the superconducting FeSe/STO monolayer, even at liquid nitrogen temperature, but absent in the non-superconducting FeSe monolayer or bilayer. Quasiparticle interference (QPI) measurements further confirm it as a static order without an energy-dependent dispersion and gapped out within the superconductivity gap. The intensity of the charge order shows an enhancement near the superconducting transition temperature, thus implying a correlation with the high-Tc superconductivity in the FeSe/STO monolayer. This study provides a new basis for exploring the ordered electronic states and their interplay with high-Tc superconductivity in the FeSe monolayer., Comment: 22 pages, 4 figures

Published
2023
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6. Kinetics-Limited Two-Step Growth of van der Waals Puckered Honeycomb Sb Monolayer

Author

Shi, Zhi-Qiang, Li, Huiping, Yuan, Qian-Qian, Xue, Cheng-Long, Xu, Yong-Jie, Lv, Yang-Yang, Jia, Zhen-Yu, Chen, Yanbin, Zhu, Wenguang, and Li, Shao-Chun

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

Puckered honeycomb Sb monolayer, the structural analog of black phosphorene, has been recently successfully grown by means of molecular beam epitaxy. However, little is known to date about the growth mechanism for such puckered honeycomb monolayer. In this study, by using scanning tunneling microscopy in combination with first-principles density functional theory calculations, we unveil that the puckered honeycomb Sb monolayer takes a kinetics-limited two-step growth mode. As the coverage of Sb increases, the Sb atoms firstly form the distorted hexagonal lattice as the half layer, and then the distorted hexagonal half-layer transforms into the puckered honeycomb lattice as the full layer. These results provide the atomic-scale insight in understanding the growth mechanism of puckered honeycomb monolayer, and can be instructive to the direct growth of other monolayers with the same structure., Comment: 16 pages, 4 figures

Published
2020
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8. Tuning the electronic structure of {\alpha}-antimonene monolayer through interface engineering

Author

Shi, Zhi-Qiang, Li, Huiping, Xue, Cheng-Long, Yuan, Qian-Qian, Lv, Yang-Yang, Xu, Yong-Jie, Jia, Zhen-Yu, Gao, Libo, Chen, Yanbin, Zhu, Wenguang, and Li, Shao-Chun

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

The interfacial charge transfer from the substrate may influence the electronic structure of the epitaxial van der Waals (vdW) monolayers and thus their further technological applications. For instance, the freestanding Sb monolayer in puckered honeycomb phase ({\alpha}-antimonene), the structural analog of black phosphorene, was predicted to be a semiconductor, but the epitaxial one behaves as a gapless semimetal when grown on the Td-WTe2 substrate. Here, we demonstrate that interface engineering can be applied to tune the interfacial charge transfer and thus the electron band of epitaxial monolayer. As a result, the nearly freestanding (semiconducting) {\alpha}-antimonene monolayer with a band gap of ~170 meV was successfully obtained on the SnSe substrate. Furthermore, a semiconductor-semimetal crossover is observed in the bilayer {\alpha}-antimonene. This study paves the way towards modifying the electron structure in two-dimensional vdW materials through interface engineering., Comment: 18 pages, 4 figures

Published
2020
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9. Ferromagnetic MnSn monolayer epitaxially grown on silicon substrate

Author

Yuan, Qian-Qian, Guo, Zhaopeng, Shi, Zhi-Qiang, Zhao, Hui, Jia, Zhen-Yu, Wang, Qianjin, Sun, Jian, Wu, Di, and Li, Shao-Chun

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

Two-dimensional (2D) ferromagnetic materials have been exhibiting promising potential in applications, such as spintronics devices. To grow epitaxial magnetic films on silicon substrate, in the single-layer limit, is practically important but challenging. In this study, we realized the epitaxial growth of MnSn monolayer on Si(111) substrate, with an atomically thin Sn/Si(111)-$2\sqrt{3}\times2\sqrt{3}$- buffer layer, and controlled the MnSn thickness with atomic-layer precision. We discovered the ferromagnetism in MnSn monolayer with the Curie temperature (Tc) of ~54 K. As the MnSn film is grown to 4 monolayers, Tc increases accordingly to ~235 K. The lattice of the epitaxial MnSn monolayer as well as the Sn/Si(111)-$2\sqrt{3}\times2\sqrt{3}$ is perfectly compatible with silicon, and thus an sharp interface is formed between MnSn, Sn and Si. This system provides a new platform for exploring the 2D ferromagnetism, integrating magnetic monolayers into silicon-based technology, and engineering the spintronics heterostructures., Comment: 12 pages, 3 figures, to appear in Chin. Phys. Lett. (Express Letters)

Published
2020
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10. Quasiparticle Interference Evidence of the Topological Fermi Arc States in Chiral Fermionic Semimetal CoSi

Author

Yuan, Qian-Qian, Zhou, Liqin, Rao, Zhi-Cheng, Tian, Shangjie, Zhao, Wei-Min, Xue, Cheng-Long, Liu, Yixuan, Zhang, Tiantian, Tang, Cen-Yao, Shi, Zhi-Qiang, Jia, Zhen-Yu, Weng, Hongming, Ding, Hong, Sun, Yu-Jie, Lei, Hechang, and Li, Shao-Chun

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

Chiral fermions in solid state feature "Fermi arc" states, connecting the surface projections of the bulk chiral nodes. The surface Fermi arc is a signature of nontrivial bulk topology. Unconventional chiral fermions with an extensive Fermi arc traversing the whole Brillouin zone have been theoretically proposed in CoSi. Here, we use scanning tunneling microscopy / spectroscopy to investigate quasiparticle interference at various terminations of a CoSi single crystal. The observed surface states exhibit chiral fermion-originated characteristics. These reside on (001) and (011) but not (111) surfaces with pi-rotation symmetry, spiral with energy, and disperse in a wide energy range from ~-200 to ~+400 mV. Owing to the high-energy and high-space resolution, a spin-orbit coupling-induced splitting of up to ~80 mV is identified. Our observations are corroborated by density functional theory and provide strong evidence that CoSi hosts the unconventional chiral fermions and the extensive Fermi arc states., Comment: 20 pages, 4 figures

Published
2020
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12. Realization of metallic state in 1T-TaS2 with persisting long-range order of charge density wave

Author

Zhu, Xin-Yang, Wang, Shi, Jia, Zhen-Yu, Zhu, Li, Li, Qi-Yuan, Zhao, Wei-Min, Xue, Cheng-Long, Xu, Yong-Jie, Ma, Zhen, Wen, Jinsheng, Yu, Shun-Li, Li, Jian-Xin, and Li, Shao-Chun

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

Metallization of 1T-TaS2 is generally initiated at the domain boundary of charge density wave (CDW), at the expense of its long-range order. However, we demonstrate in this study that the metallization of 1T-TaS2 can be also realized without breaking the long-range CDW order upon surface alkali doping. By using scanning tunneling microscopy, we find the long-range CDW order is always persisting, and the metallization is instead associated with additional in-gap excitations. Interestingly, the in-gap excitation is near the top of the lower Hubbard band, in contrast to a conventional electron-doped Mott insulator where it is beneath the upper Hubbard band. In combination with the numerical calculations, we suggest that the appearance of the in-gap excitations near the lower Hubbard band is mainly due to the effectively reduced on-site Coulomb energy by the adsorbed alkali ions., Comment: 6 pages, 4 figures, to appear in Phys. Rev. Lett

Published
2019
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13. Turning ZrTe5 into semiconductor through atomic intercalation

Author

Li, Qi-Yuan, Lv, Yang-Yang, Wang, Jinghui, Bao, Song, Shi, Wei, Zhu, Li, Zhao, Wei-Min, Xue, Cheng-Long, Jia, Zhen-Yu, Gao, Libo, Chen, Y. B., Wen, Jinsheng, Chen, Yan-Feng, and Li, Shao-Chun

Subjects
Condensed Matter - Materials Science
Abstract

In this work, we use the liquid ammonia method to successfully intercalate potassium atoms into ZrTe5 single crystal, and find a transition from semimetal to semiconductor at low temperature in the intercalated ZrTe5. The resistance anomalous peak is gradually suppressed and finally disappears with increasing potassium concentration. Whilst, the according sign reversal is always observed in the Hall resistance measurement. We tentatively attribute the semimetal-semiconductor transition to the lattice expansion induced by atomic intercalation and thereby a larger energy band gap., Comment: 16 pages, 5 figures

Published
2019
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14. Van der Waals heteroepitaxial growth of monolayer Sb in puckered honeycomb structure

Author

Shi, Zhi-Qiang, Li, Huiping, Yuan, Qian-Qian, Song, Ye-Heng, Lv, Yang-Yang, Shi, Wei, Jia, Zhen-Yu, Gao, Libo, Chen, Y. B., Zhu, Wenguang, and Li, Shao-Chun

Subjects
Condensed Matter - Materials Science
Abstract

Atomically thin two-dimensional (2D) crystals have gained tremendous attentions owing to their potential impacts to the future electronics technologies, as well as the exotic phenomena emerging in these materials. Monolayer of {\alpha} phase Sb ({\alpha}-antimonene) that shares the same puckered structure as black phosphorous, has been predicted to be stable with precious properties. However, the experimental realization still remains challenging. Here, we successfully grow high-quality monolayer {\alpha}-antimonene, with the thickness finely controlled. The {\alpha}-antimonene exhibits great stability upon exposure to air. Combining scanning tunneling microscope, density functional theory calculations and transport measurement, it is found that the electron band crossing the Fermi level exhibits a linear dispersion with a fairly small effective mass, and thus a good electrical conductivity. All of these properties make the {\alpha}-antimonene promising in the future electronic applications., Comment: 14 pages, 5 figures

Published
2019
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15. Superconductivity in Potassium-intercalated Td-WTe2

Author

Zhu, Li, Li, Qi-Yuan, Lv, Yang-Yang, Li, Shichao, Zhu, Xin-Yang, Jia, Zhen-Yu, Chen, Y. B., Wen, Jinsheng, and Li, Shao-Chun

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

To realize topological superconductor is one of the most attracting topics because of its great potential in quantum computation. In this study, we successfully intercalate potassium (K) into the van der Waals gap of type II Weyl semimetal WTe2, and discover the superconducting state in KxWTe2 through both electrical transport and scanning tunneling spectroscopy measurements. The superconductivity exhibits an evident anisotropic behavior. Moreover, we also uncover the coexistence of superconductivity and the positive magneto-resistance state. Structural analysis substantiates the negligible lattice expansion induced by the intercalation, therefore suggesting K-intercalated WTe2 still hosts the topological nontrivial state. These results indicate that the K-intercalated WTe2 may be a promising candidate to explore the topological superconductor., Comment: 17 pages, 4 figures

Published
2019
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21. Observation of Coulomb gap in the quantum spin Hall candidate single-layer 1T'-WTe$_2$

Author

Song, Ye-Heng, Jia, Zhen-Yu, Zhang, Dongqin, Zhu, Xin-Yang, Shi, Zhi-Qiang, Wang, Huaiqiang, Zhu, Li, Yuan, Qian-Qian, Zhang, Haijun, Xing, Dingyu, and Li, Shao-Chun

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

The two-dimensional topological insulators (2DTI) host a full gap in the bulk band, induced by spin-orbit coupling (SOC) effect, together with the topologically protected gapless edge states. However, the SOC-induced gap is usually small, and it is challenging to suppress the bulk conductance and thus to realize the quantum spin Hall (QSH) effect. In this study, we find a novel mechanism to effectively suppress the bulk conductance. By using the quasiparticle interference (QPI) technique with scanning tunneling spectroscopy (STS), we demonstrate that the QSH candidate single-layer 1T'-WTe$_2$ has a semi-metal bulk band structure with no full SOC-induced gap. Surprisingly, in this two-dimensional system, we find the electron interactions open a Coulomb gap which is always pinned at the Fermi energy (E$_F$). The opening of the Coulomb gap can efficiently diminish the bulk state at the E$_F$ and is in favor of the observation of the quantized conduction of topological edge states., Comment: 13 pages, 4 figures

Published
2017
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22. High-buckled R3 stanene with topologically nontrivial energy gap

Author

Song, Ye-Heng, Wang, Zhi-Wen, Jia, Zhen-Yu, Zhu, Xin-Yang, Shi, Zhi-Qiang, Zhu, Li, Yuan, Qian-Qian, Shu, Da-Jun, and Li, Shao-Chun

Subjects
Condensed Matter - Materials Science
Abstract

Stanene has been predicted to be a two-dimensional topological insulator (2DTI). Its low-buckled atomic geometry and the enhanced spin-orbit coupling are expected to cause a prominent quantum spin hall (QSH) effect. However, most of the experimentally grown stanene to date displays a metallic state without a real gap, possibly due to the chemical coupling with the substrate and the stress applied by the substrate. Here,we demonstrate an efficient way of tuning the atomic buckling in stanene to open a topologically nontrivial energy gap. Via tuning the growth kinetics, we obtain not only the low-buckled 1x1 stanene but also an unexpected high-buckled R3xR3 stanene on the Bi(111) substrate. Scanning tunneling microscopy (STM) study combined with density functional theory (DFT) calculation confirms that the R3xR3 stanene is a distorted 1x1 structure with a high-buckled Sn in every three 1x1 unit cells. The high-buckled R3xR3 stanene favors a large band inversion at the {\Gamma} point, and the spin orbital coupling open a topologically nontrivial energy gap. The existence of edge states as verified in both STM measurement and DFT calculation further confirms the topology of the R3xR3 stanene. This study provides an alternate way to tune the topology of monolayer 2DTI materials., Comment: 9 pages, 5 figures

Published
2017
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23. Direct Visualization of 2D Topological Insulator in Single-layer 1T'-WTe2

Author

Jia, Zhen-Yu, Song, Ye-Heng, Li, Xiang-Bing, Ran, Kejing, Lu, Pengchao, Zheng, Hui-Jun, Zhu, Xin-Yang, Shi, Zhi-Qiang, Sun, Jian, Wen, Jinsheng, Xing, Dingyu, and Li, Shao-Chun

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

We grow nearly freestanding single-layer 1T'-WTe2 on graphitized 6H-SiC(0001) by using molecular beam epitaxy (MBE), and characterize its electronic structure with scanning tunneling microscopy / spectroscopy (STM/STS). We demonstrate the existence of topological edge states at the periphery of single-layer WTe2 islands. Surprisingly, we also find a band gap in the bulk and the semiconducting behaviors of the single-layer WTe2 at low temperature, which is likely resulted from an incommensurate charge density wave (CDW) transition. The realization of two-dimensional topological insulators (2D TIs) in single-layer transition metal dichalcogenide (TMD) thus provides a promising platform for further exploration of the 2D TIs' physics and related applications., Comment: 12 pages, 5 figures, submitted on Feb 13, 2017 to Phys. Rev. B (Rapid Communications) 2017

Published
2017
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27. Unveiling the Charge Density Wave Inhomogeneity and Pseudogap State in 1T-TiSe2

Author

Zhang, Kai-Wen, Yang, Chao-Long, Lei, Bin, Lu, Pengchao, Li, Xiang-Bing, Jia, Zhen-Yu, Song, Ye-Heng, Sun, Jian, Chen, Xianhui, Li, Jian-Xin, and Li, Shao-Chun

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

By using scanning tunneling microscopy (STM) / spectroscopy (STS), we systematically characterize the electronic structure of lightly doped 1T-TiSe2, and demonstrate the existence of the electronic inhomogeneity and the pseudogap state. It is found that the intercalation induced lattice distortion impacts the local band structure and reduce the size of the charge density wave (CDW) gap with the persisted 2x2 spatial modulation. On the other hand, the delocalized doping electrons promote the formation of pseudogap. Domination by either of the two effects results in the separation of two characteristic regions in real space, exhibiting rather different electronic structures. Further doping electrons to the surface confirms that the pseudogap may be the precursor for the superconducting gap. This study suggests that the competition of local lattice distortion and the delocalized doping effect contribute to the complicated relationship between charge density wave and superconductivity for intercalated 1T-TiSe2., Comment: 12 pages, 5 figures

Published
2016
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28. Real-space characterization of reactivity towards water at Bi2Te3(111) surface

Author

Zhang, Kai-Wen, Ding, Ding, Yang, Chao-Long, Gan, Yuan, Li, Shichao, Huang, Wen-Kai, Song, Ye-Heng, Jia, Zhen-Yu, Li, Xiang-Bing, Zhu, Zihua, Wen, Jinsheng, Chen, Mingshu, and Li, Shao-Chun

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

Surface reactivity is important in modifying the physical and chemical properties of surface sensitive materials, such as the topological insulators (TIs). Even though many studies addressing the reactivity of TIs towards external gases have been reported, it is still under heavy debate whether and how the topological insulators react with H$_2$O. Here, we employ scanning tunneling microscopy (STM) to directly probe the surface reaction of Bi$_2$Te$_3$ towards H$_2$O. Surprisingly, it is found that only the top quintuple layer is reactive to H$_2$O, resulting in a hydrated Bi bilayer as well as some Bi islands, which passivate the surface and prevent from the subsequent reaction. A reaction mechanism is proposed with H$_2$Te and hydrated Bi as the products. Unexpectedly, our study indicates the reaction with water is intrinsic and not dependent on any surface defects. Since water inevitably exists, these findings provide key information when considering the reactions of Bi$_2$Te$_3$ with residual gases or atmosphere., Comment: 17 pages, 5 figures, accepted, Phys. Rev. B (2016)

Published
2016
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30. Hydrogen exposure-enhanced superconductivity transition in FeSe/SrTiO3 monolayer.

Author

Xue, Cheng-Long, Dou, Li-Guo, Xu, Yong-Jie, Li, Qi-Yuan, Yuan, Qian-Qian, Jia, Zhen-Yu, and Li, Shao-Chun

Subjects
SUPERCONDUCTIVITY, SCANNING tunneling microscopy, KIRKENDALL effect, TRANSITION temperature
Abstract

Interface-enhanced superconductivity in FeSe/SrTiO3 (FeSe/STO) monolayers provides the record for the highest transition temperature (Tc) in iron-based compounds. Long-term post annealing is the commonly adopted recipe to induce the superconductivity transition in the not-superconductive as-grown FeSe/STO monolayer. Here, we developed a kinetic method, i.e., hydrogen exposure followed by gentle annealing, to enhance the superconductivity of the FeSe/STO monolayer. Our approach is more efficient than the long-term post annealing. Scanning tunneling microscopy (STM) characterization demonstrated the so far largest superconducting gap of ∼22 mV, indicating an enhanced superconductivity. We believe that the hydrogen-induced lattice Fe diffusion facilitates to remove the interfacial excess Se atoms fatal to the superconductivity, resulting in the formation of a second layer FeSe. The subsequent annealing helps to annihilate the generated Fe vacancies and, thus, enhance the superconductivity in the FeSe/STO monolayer. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Realization of monolayer ZrTe5 topological insulators with wide band gaps.

Author

Xu, Yong-Jie, Cao, Guohua, Li, Qi-Yuan, Xue, Cheng-Long, Zhao, Wei-Min, Wang, Qi-Wei, Dou, Li-Guo, Du, Xuan, Meng, Yu-Xin, Wang, Yuan-Kun, Gao, Yu-Hang, Jia, Zhen-Yu, Li, Wei, Ji, Lianlian, Li, Fang-Sen, Zhang, Zhenyu, Cui, Ping, Xing, Dingyu, and Li, Shao-Chun

Abstract

Two-dimensional topological insulators hosting the quantum spin Hall effect have application potential in dissipationless electronics. To observe the quantum spin Hall effect at elevated temperatures, a wide band gap is indispensable to efficiently suppress bulk conduction. Yet, most candidate materials exhibit narrow or even negative band gaps. Here, via elegant control of van der Waals epitaxy, we have successfully grown monolayer ZrTe5 on a bilayer graphene/SiC substrate. The epitaxial ZrTe5 monolayer crystalizes in two allotrope isomers with different intralayer alignments of ZrTe3 prisms. Our scanning tunneling microscopy/spectroscopy characterization unveils an intrinsic full band gap as large as 254 meV and one-dimensional edge states localized along the periphery of the ZrTe5 monolayer. First-principles calculations further confirm that the large band gap originates from strong spin−orbit coupling, and the edge states are topologically nontrivial. These findings thus provide a highly desirable material platform for the exploration of the high-temperature quantum spin Hall effect.Quantum spin Hall materials hold great potential for future nanoelectronics. Here, authors synthesize a potential host system — monolayer ZrTe5 — and demonstrate it possesses a band gap wide enough for potential room-temperature applications. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Stent-assisted coiling of unruptured paraclinoid aneurysms with wide neck or unfavorable dome-to-neck ratio: Results of ventral wall vs dorsal wall with propensity score matching analysis.

Author

Ni, Heng, Hang, Yu, Liu, Sheng, Jia, Zhen-Yu, Shi, Hai-Bin, and Zhao, Lin-Bo

Subjects
PROPENSITY score matching, ANEURYSMS, THERAPEUTIC embolization, CLINICAL deterioration
Abstract

Objective: This study aimed to evaluate the clinical safety and efficacy of stent-assisted coil embolization of unruptured wide-necked paraclinoid aneurysms based on the projection distribution. Methods: Between November 2015 and September 2020, 267 unruptured paraclinod aneurysms in 236 patients were identified with a wide neck or unfavorable dome-to-neck ratio and treated with stent-assisted coiling technique. The classification of this segment aneurysms was simplified to the dorsal group (located on the anterior wall) and ventral group (Non-dorsal). Following propensity score matching analysis, the clinical and radiographic data were compared between the two groups. Results: Among 267 aneurysms, 186 were located on the ventral wall and 81 were on the dorsal wall. Dorsal wall aneurysms had a larger size (p <.001), wider neck (p =.001), and higher dome-to-neck ratio (p =.023) compared with ventral wall aneurysms. Propensity score-matched analysis found that dorsal group had a significantly higher likelihood of unfavorable results in immediate (residual sac, 39.4% vs. 18.2%, p =.007) and follow-up angiography (residual sac, 14.8% vs. 1.9%, p =.037) compared with ventral group, with significant difference in recurrence rates (9.3% vs. 0%, p =.028). The rates of procedure-related complications were not significantly different, but one thromboembolic event occurred in the dorsal group with clinical deterioration. Conclusions: Traditional stent-assisted coiling can be given preference in paraclinoid aneurysms located on the ventral wall. The relatively high rate of recurrence in dorsal wall aneurysms with stent assistance may require other treatment options. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Washed microbiota transplantation for Clostridioides difficile infection: A national multicenter real‐world study

Author

Wu, Xia, primary, Ai, Ru Jun, additional, Xu, Jie, additional, Wen, Quan, additional, Pan, Hua Qin, additional, Zhang, Zhi Hua, additional, Ning, Wang, additional, Fang, Ying, additional, Ding, Da Fa, additional, Wang, Quan, additional, Han, Shuang, additional, Liu, Xiao, additional, Wu, Mei, additional, Jia, Zhen Yu, additional, Jia, Song, additional, Lin, Tao, additional, Cui, Bo Ta, additional, Nie, Yong Zhan, additional, Wang, Xin, additional, and Zhang, Fa Ming, additional

Published
2023
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43. Electron-exciton coupling in 1T-TiSe2 bilayer

Author

Zhu, Li, primary, Zhao, Wei-Min, additional, Jia, Zhen-Yu, additional, Li, Huiping, additional, Xie, Xuedong, additional, Li, Qi-Yuan, additional, Wang, Qi-Wei, additional, Dou, Li-Guo, additional, Hu, Ju-Gang, additional, Zhang, Yi, additional, Zhu, Wenguang, additional, Yu, Shun-Li, additional, Li, Jian-Xin, additional, and Li, Shao-Chun, additional

Published
2023
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