Your search keyword '"Junhao Lin"' showing total 17 results

1. Constrained patterning of orientated metal chalcogenide nanowires and their growth mechanism

Author

Qishuo Yang, Yun-Peng Wang, Xiao-Lei Shi, XingXing Li, Erding Zhao, Zhi-Gang Chen, Jin Zou, Kai Leng, Yongqing Cai, Liang Zhu, Sokrates T. Pantelides, and Junhao Lin

Subjects

Science

Abstract

Abstract One-dimensional metallic transition-metal chalcogenide nanowires (TMC-NWs) hold promise for interconnecting devices built on two-dimensional (2D) transition-metal dichalcogenides, but only isotropic growth has so far been demonstrated. Here we show the direct patterning of highly oriented Mo6Te6 NWs in 2D molybdenum ditelluride (MoTe2) using graphite as confined encapsulation layers under external stimuli. The atomic structural transition is studied through in-situ electrical biasing the fabricated heterostructure in a scanning transmission electron microscope. Atomic resolution high-angle annular dark-field STEM images reveal that the conversion of Mo6Te6 NWs from MoTe2 occurs only along specific directions. Combined with first-principles calculations, we attribute the oriented growth to the local Joule-heating induced by electrical bias near the interface of the graphite-MoTe2 heterostructure and the confinement effect generated by graphite. Using the same strategy, we fabricate oriented NWs confined in graphite as lateral contact electrodes in the 2H-MoTe2 FET, achieving a low Schottky barrier of 11.5 meV, and low contact resistance of 43.7 Ω µm at the metal-NW interface. Our work introduces possible approaches to fabricate oriented NWs for interconnections in flexible 2D nanoelectronics through direct metal phase patterning.

Published

2024

2. Emergence of quantum confinement in topological kagome superconductor CsV3Sb5

Author

Yongqing Cai, Yuan Wang, Zhanyang Hao, Yixuan Liu, Xuelei Sui, Zuowei Liang, Xiao-Ming Ma, Fayuan Zhang, Zecheng Shen, Chengcheng Zhang, Zhicheng Jiang, Yichen Yang, Wanling Liu, Qi Jiang, Zhengtai Liu, Mao Ye, Dawei Shen, Han Gao, Hanbo Xiao, Zhongkai Liu, Zhe Sun, Yi Liu, Shengtao Cui, Jiabin Chen, Le Wang, Cai Liu, Junhao Lin, Bing Huang, Zhenyu Wang, Xianhui Chen, Jia-Wei Mei, Jianfeng Wang, and Chaoyu Chen

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract Quantum confinement is a restriction on the motion of electrons in a material to specific region, resulting in discrete energy levels rather than continuous energy bands. In certain materials, quantum confinement could dramatically reshape the electronic structure and properties of the surface with respect to the bulk. Here, in the recently discovered kagome superconductors CsV3Sb5, we unveil the dominant role of quantum confinement in determining their surface electronic structure. Combining angle-resolved photoemission spectroscopy (ARPES) measurement and density-functional theory simulation, we report the observations of two-dimensional quantum well states due to the confinement of bulk electron pocket and Dirac cone to the nearly isolated surface layer. The theoretical calculations on the slab model also suggest that the ARPES observed spectra are almost entirely contributed by the top two layers. Our results not only explain the disagreement of band structures between the recent experiments and calculations, but also suggest an equally important role played by quantum confinement, together with strong correlation and band topology, in shaping the electronic properties of this material.

Published

2024

3. Author Correction: Theophylline controllable RNAi-based genetic switches regulate expression of lncRNA TINCR and malignant phenotypes in bladder cancer cells

Author

Zhicong Chen, Yuchen Liu, Anbang He, Jianfa Li, Mingwei Chen, Yonghao Zhan, Junhao Lin, Chengle Zhuang, Li Liu, Guoping Zhao, Weiren Huang, and Zhiming Cai

Subjects

Medicine, Science

Published

2023

4. Author Correction: Synthetic Tet-inducible artificial microRNAs targeting β-catenin or HIF-1α inhibit malignant phenotypes of bladder cancer cells T24 and 5637

Author

Yonghao Zhan, Yuchen Liu, Junhao Lin, Xing Fu, Chengle Zhuang, Li Liu, Wen Xu, Jianfa Li, Mingwei Chen, Guoping Zhao, Weiren Huang, and Zhiming Cai

Subjects

Medicine, Science

Published

2023

5. Realization of practical eightfold fermions and fourfold van Hove singularity in TaCo2Te2

Author

Hongtao Rong, Zhenqiao Huang, Xin Zhang, Shiv Kumar, Fayuang Zhang, Chengcheng Zhang, Yuan Wang, Zhanyang Hao, Yongqing Cai, Le Wang, Cai Liu, Xiaoming Ma, Shu Guo, Bing Shen, Yi Liu, Shengtao Cui, Kenya Shimada, Quansheng Wu, Junhao Lin, Yugui Yao, Zhiwei Wang, Hu Xu, and Chaoyu Chen

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492, Atomic physics. Constitution and properties of matter, QC170-197

Abstract

Abstract Space groups describing the symmetry of lattice structure allow the emergence of fermionic quasiparticles with various degeneracy in the band structure. Theoretical efforts have predicted many materials hosting fermions with the highest degeneracy, i.e., eightfold fermions, yet lacking experimental realization. Here, we explore the band degeneracies in TaCo2Te2 crystals. Through systematic experimental and theoretical analyses, we establish TaCo2Te2 as a nonsymmorphic crystal with negligible spin–orbit coupling (SOC) and long-range magnetic order. These critical properties guarantee the realization of practical eightfold fermions and fourfold van Hove singularity, as directly observed by photoemission spectroscopy. TaCo2Te2 serves as a topological quantum critical platform, which can be tuned into various magnetic, topologically trivial, and nontrivial phases by adding strain, magnetic field, or SOC. The latter is demonstrated by our first-principles calculations, which show that enhancing SOC in TaCo2Te2 will promote the experimental observation of bulk hourglass fermions. Our results establish TaCo2Te2 as a platform to explore the interplay between symmetry and band topology.

Published

2023

6. Continuously tunable ferroelectric domain width down to the single-atomic limit in bismuth tellurite

Author

Mengjiao Han, Cong Wang, Kangdi Niu, Qishuo Yang, Chuanshou Wang, Xi Zhang, Junfeng Dai, Yujia Wang, Xiuliang Ma, Junling Wang, Lixing Kang, Wei Ji, and Junhao Lin

Subjects

Science

Abstract

Tunability of ferroelectric domain structure is significant in ferroelectric materials. Here, the authors present in-plane ferroelectricity in 2D Bi2TeO5 in which the ferroelectric domain size and shape can be continuously tuned by the Bi/Te ratio.

Published

2022

7. Creating two-dimensional solid helium via diamond lattice confinement

Author

Weitong Lin, Yiran Li, Sytze de Graaf, Gang Wang, Junhao Lin, Hui Zhang, Shijun Zhao, Da Chen, Shaofei Liu, Jun Fan, Bart J. Kooi, Yang Lu, Tao Yang, Chin-Hua Yang, Chain Tsuan Liu, and Ji-jung Kai

Subjects

Science

Abstract

Helium is the second most abundant element in the universe, and at low temperatures it becomes a quantum crystal with exotic physical properties such as second sound, superfluidity, and giant plasticity. Here authors prepare 2D solid helium at room temperature through diamond lattice confinement.

Published

2022

8. Spin mapping of intralayer antiferromagnetism and field-induced spin reorientation in monolayer CrTe2

Author

Jing-Jing Xian, Cong Wang, Jin-Hua Nie, Rui Li, Mengjiao Han, Junhao Lin, Wen-Hao Zhang, Zhen-Yu Liu, Zhi-Mo Zhang, Mao-Peng Miao, Yangfan Yi, Shiwei Wu, Xiaodie Chen, Junbo Han, Zhengcai Xia, Wei Ji, and Ying-Shuang Fu

Subjects

Science

Abstract

In two dimensions magnetic order without magnetic anisotropy is forbidden, making 2D magnetic systems a rich playground for interesting physics. Here, Xian et al. fabricate monolayers of CrTe2, and demonstrate antiferromagnetic ordering, with spin reorientation at finite magnetic fields.

Published

2022

9. Enhanced performance of in-plane transition metal dichalcogenides monolayers by configuring local atomic structures

Author

Yao Zhou, Jing Zhang, Erhong Song, Junhao Lin, Jiadong Zhou, Kazu Suenaga, Wu Zhou, Zheng Liu, Jianjun Liu, Jun Lou, and Hong Jin Fan

Subjects

Science

Abstract

Designing and realizing local configurations can activate the in-plane chalcogen atoms of transition metal dichalcogenide to enhance the HER activity. We combine the theoretical screening (charge transfer capability) and experimental realization to achieve highly active local configurations

Published

2020

10. Transport evidence of asymmetric spin–orbit coupling in few-layer superconducting 1T d-MoTe2

Author

Jian Cui, Peiling Li, Jiadong Zhou, Wen-Yu He, Xiangwei Huang, Jian Yi, Jie Fan, Zhongqing Ji, Xiunian Jing, Fanming Qu, Zhi Gang Cheng, Changli Yang, Li Lu, Kazu Suenaga, Junwei Liu, Kam Tuen Law, Junhao Lin, Zheng Liu, and Guangtong Liu

Subjects

Science

Abstract

Two-dimensional transition metal dichalcogenides with peculiar spin–orbit coupling may lead to exotic phenomena. Here, the authors report a large in-plane upper critical field with a two-fold symmetry, suggesting a novel asymmetric spin–orbit coupling in few-layer 1T d-MoTe2.

Published

2019

11. Efficient carrier multiplication in CsPbI3 perovskite nanocrystals

Author

Chris de Weerd, Leyre Gomez, Antonio Capretti, Delphine M. Lebrun, Eiichi Matsubara, Junhao Lin, Masaaki Ashida, Frank C. M. Spoor, Laurens D. A. Siebbeles, Arjan J. Houtepen, Kazutomo Suenaga, Yasufumi Fujiwara, and Tom Gregorkiewicz

Subjects

Science

Abstract

In semiconductor nanocrystals, efficient carrier multiplication counteracts hot carrier thermalization, increasing the overall carrier generation yield. Here, de Weerd et al. observe a quantum yield of up to 98% in CsPbI3 nanocrystals as a result of efficient carrier multiplication.

Published

2018

12. Atomically thin noble metal dichalcogenide: a broadband mid-infrared semiconductor

Author

Xuechao Yu, Peng Yu, Di Wu, Bahadur Singh, Qingsheng Zeng, Hsin Lin, Wu Zhou, Junhao Lin, Kazu Suenaga, Zheng Liu, and Qi Jie Wang

Subjects

Science

Abstract

The mid-infrared technologies are essential to various applications but suffer from limited materials with suitable bandgap. Here the authors demonstrate that two-dimensional atomically thin PtSe2 with variable bandgaps in the mid-infrared via layer and defect engineering is highly promising for mid-infrared optoelectronics.

Published

2018

13. Fast kinetics of magnesium monochloride cations in interlayer-expanded titanium disulfide for magnesium rechargeable batteries

Author

Hyun Deog Yoo, Yanliang Liang, Hui Dong, Junhao Lin, Hua Wang, Yisheng Liu, Lu Ma, Tianpin Wu, Yifei Li, Qiang Ru, Yan Jing, Qinyou An, Wu Zhou, Jinghua Guo, Jun Lu, Sokrates T. Pantelides, Xiaofeng Qian, and Yan Yao

Subjects

Science

Abstract

Magnesium rechargeable batteries potentially offer high-energy density, safety, and low cost. Here the authors show a battery that reversibly intercalates magnesium monochloride cations with excellent rate and cycle performances in addition to the large capacity.

Published

2017

14. High-quality monolayer superconductor NbSe2 grown by chemical vapour deposition

Author

Hong Wang, Xiangwei Huang, Junhao Lin, Jian Cui, Yu Chen, Chao Zhu, Fucai Liu, Qingsheng Zeng, Jiadong Zhou, Peng Yu, Xuewen Wang, Haiyong He, Siu Hon Tsang, Weibo Gao, Kazu Suenaga, Fengcai Ma, Changli Yang, Li Lu, Ting Yu, Edwin Hang Tong Teo, Guangtong Liu, and Zheng Liu

Subjects

Science

Abstract

Two-dimensional superconductors will likely have applications not only in devices, but also in the study of fundamental physics. Here, Wang et al. demonstrate the CVD growth of superconducting NbSe2 on a variety of substrates, making these novel materials increasingly accessible.

Published

2017

15. Theophylline controllable RNAi-based genetic switches regulate expression of lncRNA TINCR and malignant phenotypes in bladder cancer cells

Author

Zhicong Chen, Yuchen Liu, Anbang He, Jianfa Li, Mingwei Chen, Yonghao Zhan, Junhao Lin, Chengle Zhuang, Li Liu, Guoping Zhao, Weiren Huang, and Zhiming Cai

Subjects

Medicine, Science

Abstract

Abstract TINCR is a well-known lncRNA which acts as a master regulator in somatic differentiation development. However, it is still unclear whether TINCR is also involved in caner occurrence and progression. In this study, we observed that TINCR was up-regulated in bladder cancer tissues and cells and contributed to oncogenesis and cancer progression. Silencing TINCR expression inhibited cell proliferation and promoted apoptosis in vitro, indicating that TINCR may be the potential therapeutic target for treating bladder urothelial carcinoma. Thus we used the synthetic biology approach to create theophylline controllable RNAi-based genetic switches which silenced TINCR in a dosage-dependent manner. Both RNAi-OFF and ON switches can be used to quantitatively control the expression of TINCR in bladder cancer to suppress the progression of bladder cancer. These findings suggest that lncRNA-TINCR could promote bladder cancer development and progression and artificial control of its expression through inducible RNAi may represent a new kind of therapeutic strategy for treating human bladder cancer.

Published

2016

16. Room-temperature ferroelectricity in CuInP2S6 ultrathin flakes

Author

Fucai Liu, Lu You, Kyle L. Seyler, Xiaobao Li, Peng Yu, Junhao Lin, Xuewen Wang, Jiadong Zhou, Hong Wang, Haiyong He, Sokrates T. Pantelides, Wu Zhou, Pradeep Sharma, Xiaodong Xu, Pulickel M. Ajayan, Junling Wang, and Zheng Liu

Subjects

Science

Abstract

Two dimensional materials are promising for electronic applications, which await the exploration of cooperative phenomena. Here, Liu et al. report switchable ferroelectric polarization in thin CuInP2S6film at room temperature, demonstrating good memory behaviour with on/off ratio of ∼100 based on two-dimensional ferroelectricity.

Published

2016

17. Synthetic Tet-inducible artificial microRNAs targeting β-catenin or HIF-1α inhibit malignant phenotypes of bladder cancer cells T24 and 5637

Author

Yonghao Zhan, Yuchen Liu, Junhao Lin, Xing Fu, Chengle Zhuang, Li Liu, Wen Xu, Jianfa Li, Mingwei Chen, Guoping Zhao, Weiren Huang, and Zhiming Cai

Subjects

Medicine, Science

Abstract

Abstract Ribonucleic acid interference (RNAi) based on microRNA (miRNA) may provide efficient and safe therapeutic opportunities. However, natural microRNAs can not easily be regulated and usually cause few phenotypic changes. Using the engineering principles of synthetic biology, we provided a novel and standard platform for the generation of tetracycline (Tet)-inducible vectors that express artificial microRNAs in a dosage-dependent manner. The vector generates a Pol II promoter-mediated artificial microRNA which was flanked by ribozyme sequences. In order to prove the utility of this platform, we chose β-catenin and HIF-1α as the functional targets and used the bladder cancer cell lines 5637 and T24 as the test models. We found that the Tet-inducible artificial microRNAs can effectively silence the target genes and their downstream genes and induce anti-cancer effects in the two bladder cancer cell lines. These devices can inhibit proliferation, induce apoptosis and suppress migration of the bladder cancer cell lines 5637 and T24. The Tet-inducible synthetic artificial microRNAs may represent a kind of novel therapeutic strategies for treating human bladder cancer.

Published

2015