时玉萌
博士、教授
基本信息
| 办公电话: | 电子邮件: ymshi@bjtu.edu.cn |
| 通讯地址: | 邮编: |
教育背景
工作经历
2024.6起 教授 博士生导师 北京交通大学 物理科学与工程学院 光电子技术研究所
2016.4起 教授、特聘教授 博士生导师 深圳大学
2014-2016 研究科学家 沙特阿普杜拉国王科技大学,物理科学与工程
Physical Science and Engineering Division,
King Abdullah University of Science and Technology
2012-2014 博士后 新加坡科技与设计大学,MIT国际设计中心
SUTD-MIT International Design Centre,
Singapore University of Technology and Design,
2011-2012 博士后 美国麻省理工学院,电子研究实验室
Research Laboratory of Electronics,
Massachusetts Institute of Technology
2010-2011 博士后 新加坡南洋理工大学,材料科学与工程学院
Materials Science and Engineering,
Nanyang Technological University
研究方向
- 新型光电子器件物理
- 光电信息工程
招生专业
- 物理学硕士
- 光电信息工程硕士
- 物理学博士
科研项目
(1)国家基金委面上项目:二维金属卤化物钙钛矿/过渡金属硫族化合物异质结构的可控制备及光电特性研究,2019/01-2022/12,75.6万,主持。
(2)国家基金委青年项目:二维金属-半导体异质结可控制备及其光电性质的研究,2017/01-2019/12,20.00万,主持。
(3)广东省科技计划项目-广东省重点领域研发项目,超材料多物理场调控及应用,2019/11/01-2022/10/31,170万,参与。
(4)广东省教育厅,省级基础研究及应用研究重大项目(自然科学类), 二维材料异质结构可控制备及柔性电子应用,2017/01-2019/12,50万,主持。
(5)深圳市科创委孔雀团队项目,高品质二维材料的宏量制备及产业化应用研究,2017/01-2021/12, 3600万,团队第一核心成员。
(6)深圳市科创委基础研究(自由探索项目),二维层状材料晶体缺陷工程及其光电特性研究,2018/01-2020/12,50万,主持。
(7)深圳市科创委基础研究(面上项目),无机非铅钙钛矿单晶膜可控制备及其宽谱弱光探测应用,2022/07/01-2025/06/30,30万,主持。
(8)深圳市孔雀计划高端人才(自主研究项目),2018/01/01-2020/12/31,500 万, 主持。
(9)深圳市高水平大学建设(二期),科研团队建设项目,2018-2020,150 万,主持。
(10)深圳华盈芯材半导体技术有限公司,横向科研合作项目,2022-2025,150万,主持。
教学工作
半导体物理;微纳光电子学;大学物理;大学物理实验;论文/期刊
To be updated publications since 2024-6
https://orcid.org/0000-0002-9623-3778
https://webofscience.clarivate.cn/wos/author/record/A-7349-2012
通讯或第一作者论文发表列表 (2016-2024)
2024
82.Self-Trapped Exciton Emission in Highly Polar 0D Hybrid Ammonium/Hydronium-Based Perovskites Triggered by Antimony Doping, Bo Zhou, Feier Fang, Zexiang Liu, Haizhe Zhong, Kang Zhou, Hanlin Hu, Jiacheng Min, Fangyuan Zheng, Shaofan Fang, Jingheng Nie, Jing-Kai Huang, Lain-Jong Li, Henan Li*, Yi Wan*, Yumeng Shi*, J. Am. Chem. Soc. 2024, 146, 22, 15198 [IF:14.4]
81.Two-Step Perovskite Solar Cells with > 25% Efficiency: Unveiling the Hidden Bottom Surface of Perovskite Layer, Fei Wang, Taomiao Wang, Yonggui Sun, Xiao Liang, Guo Yang, Qiannan Li, Yongjun Li, Xianfang Zhou, Quanyao Zhu*, Annie Ng, Haoran Lin, Mingjian Yuan, Yumeng Shi*, Tom Wu*, Hanlin Hu*, Adv. Mater. 2024, 36, 2401476. [IF: 27.4]
80.Optimizing 2D-metal contact in layered Tin-selenide via native oxide modulation,Yue Zheng, Qi You, Zhentian Yin, Jian Tang, Ke Jiang, Zihao Xie, Henan Li, Cheng Han*, Yumeng Shi, Nano Research, 2024 17, 3014 [IF: 9.5]
79.Interlayer exciton dynamics of transition metal dichalcogenide heterostructures under electric fields,Jian Tang, Yue Zheng, Ke Jiang, Qi You, Zhentian Yin, Zihao Xie, Henan Li, Cheng Han*, Xiaoxian Zhang*, Yumeng Shi*, Nano Research, 2024 17, 4555 [IF: 9.5]
81.Self-Assembled 2D VS2/Ti3C2Tx MXene Nanostructures with Ultrafast Kinetics for Superior Electrochemical Sodium-Ion Storage, Pin Ma*, Zehao Zhang, Jian Wang, Haibo Li*, Hui Ying Yang*, Yumeng Shi*Advanced Science,2023,10,2304465 [IF: 14.3]
78.Understanding the Highly Reversible Potassium Storage of Hollow Ternary (Bi-Sb)2S3@N-C Nanocube, Liping YangLu GuoDong YanYe WangTing ShenDong-Sheng LiMei Er PamYumeng Shi*, Hui Ying Yang*, ACS Nano, 2023, 17, 7, 6754–6769 [IF: 15.8]
2023
77.Achieving Tunable Cold/Warm White-Light Emission in a Single Perovskite Material with Near-Unity Photoluminescence Quantum Yield, Bo Zhou, Aixuan Du, Dong Ding, Zexiang Liu, Ye Wang, Haizhe Zhong, Henan Li, Hanlin Hu*, Yumeng Shi*, Nano-Micro Letters, 2023, 15, 207 [IF: 31.6]
76. Orientated Lateral Growth of Two-Dimensional Materials on C-plane Sapphire, Jui-Han Fu , Jiacheng Min , Che-Kang Chang , Chien-Chih Tseng , Qingxiao Wang , Hayato Sugisaki , Chenyang Li , Yu-Ming Chang , Ibrahim Alnami , Wei-Ren Syong , Ci Lin , Feier Fang , Lv Zhao , Chao-Sung Lai , Wei-Sheng Chiu , Wen-Hao Chang , Yu-Jung Lu , Kaimin Shih , Lain-Jong Li *, Yi Wan* , Yumeng Shi*,Vincent Tung*, Nature Nanotechnology,2023, 18, 1289 [IF: 40.523]
75. Chemical Doping of Lead-Free Metal-Halide-Perovskite Related Materials for Efficient White-Light Photoluminescence, Jingheng Nie#, Bo Zhou#, Shaofan Fang, Ye Wang, Yu Wang, Bingbing Tian, Hanlin Hu,Haizhe Zhong, Henan Li*, and Yumeng Shi*, Materials Today Physics, 2023, 100992, [IF: 11.021]
74. Regulation of Self-trapped Excitons in an Organic–inorganic Hybrid Cu(I) Halide with Mixed Halogens for Use in Advanced Anti-counterfeiting,Shaofan Fang, Aixuan Du, Bo Zhou, Zexiang Liu, Jinghen Nie, Ye Wang, Haizhe Zhong, Hanlin Hu, and Henan Li*, Yumeng Shi*, Advanced Optical Materials, [IF: 10.050]
73. Modulation of The Excitation States in All-Inorganic Halide Perovskites via Sb3+ and Bi3+ Codoping, Liu, Zexiang# ; Zhou, Bo #; Fang, Shaofan ; Nie, Jingheng ; Zhong, Haizhe; Hu, Hanlin; Li, Henan*; Shi, Yumeng*, Journal of Physical Chemistry Letters, 2023, 14, 4, 1022–1028, [IF: 6.888]
2022
72. Wafer-scale single-orientation 2D layers by atomic edge-guided epitaxial growth,Y. Wan, J-H. Fu, C-P. Chuu, V. Tung, Yumeng Shi * and L-J. Li*, Chemical Society Reviews, https://doi.org/10.1039/D1CS00264C,[IF: 54.564]
71. Iron-mediated ligand-to-metal charge transfer enables 1,2-diazidation of alkenes,M. Zhang, J. Zhang, Q. Li and Yumeng Shi*, Nature Communications, 2022, 13,7880 [IF: 17.694]
70. Single “Swiss-roll” microelectrode elucidates the critical role of iron substitution in conversion-type oxides, Lixiang Liu, Shaozhuan Huang,* Wujun Shi, Xiaolei Sun, Jinbo Pang, Qiongqiong Lu, Ye Yang, Lixia Xi, Liang Deng, Steffen Oswald, Lifeng Liu, Oliver G. Schmidt, Yumeng Shi,* and Lin Zhang*, Science Advances, 2022, 8, eadd6596 [IF: 14.957]
69. Two-Dimensional Cs2AgBiBr6/WS2 Heterostructure-Based Photodetector with Boosted Detectivity via Interfacial Engineering, F. Fang, Y Wan*, H. Li, S. Fang, F. Huang, B. Zhou, K. Jiang, V. C. Tung, L-J Li, Yumeng Shi *, ACS Nano, 2022, 16, 3, 3985-3993 [IF: 15.881]
68. Reversible Charge-polarity Control for Multioperation-mode Transistors Based on van der Waals Heterostructures, C-F Chen, S-H Yang, M-P Lee, M-Y Tsai, F-S Yang, Y-M Chang, C-Y Lin*, M. Li, K-C Lee, K Ueno, Yumeng Shi*, C-H Lien, W-W Wu, P-W Chiu, S-T Lo, , W Li*, Y-F Lin*, Advanced Science,2022,9, 2106016 [IF: 16.806]
67. Visible-light stimulated synaptic plasticity in amorphous indium-gallium-zinc oxide enabled by monocrystalline double perovskite for high-performance neuromorphic applications, F. Huang; F. Fang; Y. Zheng; Q. You; H. Li; S. Fang; X. Cong; K. Jiang; Y. Wang; Cheng Han*; Yumeng Shi*, Nano Research, 2022 [IF: 10.269]
66. Efficient Multi-color and White Photoluminescence in Erbium and Holmium-Incorporated Cs2NaInCl6:Sb3+ Double Perovskite, Nie, Jingheng ; Zhou, Bo ; Fang, Shaofan ; Zhong, Haizhe; Li, Henan*; Yumeng Shi*, Chemistry of Materials, 2022, 34, 14, 6288–6295, (Selected for Journal Cover) [IF: 10.508]
65. Chiral Ligand-Induced Structural Transformation of Low-Dimensional Hybrid Perovskite for Circularly Polarized Photodetection, M. Li, F. Fang, X. Huang, G. Liu, Zheng Lai, Z. Chen, J. Hong, Y. Chen, R. Wei, G. Ning, K. Leng*, Yumeng Shi*, and B. Tian*, Chemistry of Materials, 2022, doi.org/10.1021/acs.chemmater.1c03622 [IF: 9.811]
64. Highly reversible moisture-induced bright self-trapped exciton emissions in a copper-based organic–inorganic hybrid metal halide, S. Fang, B. Zhou, H. Li, H. Hu, H. Zhong, H. Li, Yumeng Shi*, Advanced Optical Materials, 2022, 10.1002/adom.202200605 [IF: 9.926]
63. A Novel 4,4’-Bipiperidine-Based Organic Salt for Efficient and Stable 2D-3D Perovskite Solar Cells, Y. Li, J. Zhang, J. Xiang, H. Hu, *; H. Zhong,* Yumeng. Shi *, ACS Applied Materials Interfaces, 2022, 14, 19, 22324-22331 [IF:9.229]
62. Emission Mechanism of Self-Trapped Excitons in Sb3+-Doped All- Inorganic Metal-Halide Perovskites,B. Zhou, Z. Liu, S. Fang, J. Nie, H. Zhong, H. Hu, H. Li, and Yumeng Shi *, Journal of Physical Chemistry Letters,2022, 13, 39, 9140-9147 [IF: 6.888]
2021
61. Harmonic Generation in Transition Metal Dichalcogenides and their Heterostructures , Rui Ma,Duncan S. Sutherland*, Yumeng Shi*, Materials Today, 2021, doi.org/10.1016/j.mattod.2021.07.023 [IF 31.041]
60. Efficient White Photoluminescence from Self-trapped Excitons in Sb3+/Bi3+-co-doped Cs2NaInCl6 Double Perovskites with Tunable Dual-emission, Bo Zhou, Zexiang Liu, Shaofan Fang, Haizhe Zhong, Bingbing Tian, Ye Wang, Henan Li, Hanlin Hu, Yumeng Shi*, ACS Energy Letters, doi.org/10.1021/acsenergylett.1c01442 [IF 23.101]
59. Design of Black Phosphorous Derivatives with Excellent Stability and Ion-Kinetics for Alkali Metal-Ion Battery, Liping Yang, Ting Shen, Yew Von Lim, Mei Er Pam, Lu Guo, Yumeng Shi*, Hui Ying Yang*, Energy Storage Materials, 2021, 35, 283-309, doi.org/10.1016/j.ensm.2020.11.025 [IF: 20.831]
58. Towards dendrite free potassium metal batteries: A rational design of multifunctional 3D polyvinyl alcohol-borax layer, Shuo Wang, Yaping Yan, Dongbin Xiong, Guojing Li, Ye Wang, Fuming Chen, Song Chen, Bingbing Tian*, Yumeng Shi*, Angewandte Chemie International Edition, 2021, DOI: 10.1002/anie.202111753, [IF:15.336]
57. Unlocking Rapid and Robust Sodium Storage Performance of Zinc-based Sulfide via Indium Incorporation, Yan, Dong; Lim, Yew Von; Shang, Yang; Fang, Daliang; Wang, Ye; Pam, Mei Er; Wang, Guangzhao; Li, Xue Liang; Yang, Shengyuan; Shi, Yumeng*; Yang, Hui Ying*, ACS Nano, 2021, 15, 5, 8507-8516 [IF: 14.588]
56. Zero-dimensional organic–inorganic hybrid copper-based halides with highly efficient orange-red emission, Shaofan Fang, Henan Li, Yuelin Xie, Huixia Li, Ye Wang, and Yumeng Shi*, Small, DOI: 10.1002/smll.202103831, [IF 13.281]
55. Porosity Engineering of MXene Membrane Towards Polysulfide Inhibition and Fast Lithium Ion Transportation for Lithium-Sulfur Batteries,D. Xiong, S. Huang, D. Fang, D. Yan, G. Li, Y. Yan, S. Chen, Y. Liu, X. L. Li, Y. V. Lim, Y. Wang, B. Tian, Yumeng Shi*, and H. Y. Yang* 2021, Small, doi.org/10.1002/smll.202007442, [IF 13.281]
54. Surface charge transfer doping enabled large hysteresis in van der Waals heterostructures for artificial synapse, Pan, Xuan; Zheng, Yue; Shi, Yumeng*; Chen, Wei*, 2021 ACS Materials Letters, 2021, 3, 2, 235–242, doi.org/10.1021/acsmaterialslett.0c00531, [IF: 11.170]
53. Efficient energy transfer in organic light-emitting transistor with tunable wavelength ,Ke Zhou, Jian Tang, Shaofan Fang, Ke Jiang, Fangxu Yang, Deyang Ji, Jing Xiang. Jie Liu, Huanli Dong*, Cheng Han, Hanlin Hu, Xiaotao Zhang, Wenping Hu* and Yumeng Shi*, Nano Research, 2021, doi.org/10.1007/s12274-021-3959-x [IF: 10.269]
52. Ultrafast Growth of High-Quality Large-Sized GaSe Crystals by Liquid Metal Promoter, Zuxin Chen; Quan Chen; Zebing Cai; Bin Wei; Jun Wang; Yanping Liu; Yumeng Shi*; Zhongchang* Wang; Jingbo Li*, Nano Research, doi.org/10.1007/s12274-021-3987-6 2021 [IF: 10.269]
51. Highly Efficient White-Light Emission Triggered by Sb3+ Dopant in Indium-based Double Perovskites, Bo Zhou, Zexiang Liu, Henan Li,*Shaofan Fang, Feier Fang, Ye Wang d and Yumeng Shi*; 2020 Advanced Photonic Research, 10.1002/adpr.202100143
50. Performance Limits and Potential of Multilayer Graphene–WSe2 Heterostructures, S.-H. Yang, F.-S. Yang, H.-L. Tang, M.-H. Chiu, K.-C. Lee, M. Li, L.‐J. Li, V. Tung, Y. Xu,*Yumeng. Shi*, C.-H. Lien,* and Y.-F. Lin*, 2020, Advanced Electronic Materials, 10.1002/aelm.202100355 [IF 7.295]
49. Suppressing Li Dendrite Puncture with a Hierarchical h-BN Protective Layer, Li, Guojing; Li, Henan; Wang, Ye; Xiong, Dongbin; Wang, Shuo; Yan, Yaping; Chen, Song; Tian, Bingbing*; Shi, Yumeng*, ACS Applied Materials & Interfaces, 2021, 13, 47, 56109-56115 [IF: 9.229]
48. In situ synthesis of lead-free halide perovskite Cs2AgBiBr6 supported on nitrogen-doped carbon for efficient hydrogen evolution in aqueous HBr solution,Y. Jiang, X. Wu, M. Zhu,H. Zhang,K. Zhang, Y. Wang, K. P. Loh, Yumeng Shi*, Q.-H. Xu*ACS Applied Materials Interfaces, 2021, 12,8, 10037-10046, doi.org/10.1021/acsami.0c21588, [IF: 9.2293]
47. Two-dimensional Cs2AgBiBr6 with Boosted Light-Matter Interaction for High-performance Photodetectors, Feier Fang, Henan Li*, Shaofan Fang, Bo Zhou, Fu Huang, Chun Ma, Yi Wan,Shangchi Jiang, Ye Wang, Bingbing Tian, Yumeng Shi*; Advanced Optical Materials, 2021 doi.org/10.1002/adom.202001930 [IF: 9.926]
46. Highly Efficient and Stable Ionic Liquid-based Gel Electrolytes, P. Ma, Y. Fang, A. Li, B. Wen, H. Cheng, X. Zhou, Yumeng Shi*, H. Y. Yang*, and Y. Lin , Nanoscale, 2021, 10.1039/D0NR08765C. [IF: 6.895]
45. Unveiling the Relationship between the Surface Chemistry of Nanoparticles and Ion Transport Properties of the Resulting Composite Electrolytes,Pin Ma, Yanyan Fang*, Xiaowen Zhou, Yumeng Shi*, Hui Ying Yang*, and Yuan Lin,J. Phys. Chem. Lett. 2021, 12, 1, 642–649 DOI: 10.1021/acs.jpclett.0c03378 [IF: 6.475]
2020
44. Stepwise Intercalation-Conversion-Intercalation Sodiation Mechanism in CuInS2 Prompting Sodium Storage Performance, Yan, Dong; Huang, Shaozhuan; Lim, Yew Von; fang, daliang; Shang, Yang; Pam, Mei Er; Yu, Juezhi; Xiong, Dongbin; Li, Xue Liang; Zhang, Jian; Wang, Ye; Pan, Likun; Bai, Ying; Shi, Yumeng; Yumeng Shi* Yang, Hui Ying*. ACS Energy Letters, 2020, 5, 12, 3725–3732 [IF 23.101]
43. Rechargeable Aqueous Zinc-Ion Batteries in MgSO4/ZnSO4 Hybrid Electrolytes, Y. Zhang, H. Li*, S. Huang, S. Fan, L. Sun, B. Tian, F. Chen, Y. Wang, Yumeng. Shi*, and H. Y. Yang*, Nano-Micro Lett.,(2020) 12:60 https://doi.org/10.1007/s40820-020-0385-7 [IF: 23.655]
42. Rational Design of MXene-Based Films for Energy Storage: Progress and Prospects, D. Xiong,,Yumeng. Shi* and H. Y. Yang,* Materials Today [IF: 26.416]
41. Design of Black Phosphorous Derivatives with Excellent Stability and Ion-Kinetics for Alkali Metal-Ion Battery, Liping Yang, Ting Shen, Yew Von Lim, Mei Er Pam, Lu Guo, Yumeng Shi*, Hui Ying Yang*, doi.org/10.1016/j.ensm.2020.11.025, Energy Storage Materials [IF: 20.831]
40. Photocatalytic Hydrogen Evolution under Ambient Conditions on Polymeric Carbon Nitride/Donor-π-Acceptor Organic Molecule Heterostructures, Kui Li, Lei Wang, Zhongxin Chen, Xianfeng Yang, Yu-Xiang Yu, Wei-De Zhang, Ye Wang, Yumeng Shi,* Kian Ping Loh, Qinghua Xu*, 2020, Advanced Functional Materials, 2020,30,205106 (Back Cover) [IF: 19.924]
39. Nanocarbon catalysts: recent understanding on the active sites, Luhua Zhang, Ye Wang, Yumeng Shi*, Shiju. N. Raveendran*, Advanced Science, 2020, 7, 1902126, (Front Cover) [IF: 15.84].
38. Efficient Low-Frequency Microwave Absorption and Solar Evaporation Properties of γ-Fe2O3 Nanocubes/Graphene Composites, F. Wang,X. Li, Z. Chen, W. Yu, K. P. Loh, B. Zhong*, Yumeng Shi,* Q.-H. Xu*,2020 Chemical Engineering Journal,2021, 405, 126676 [IF:16.744]
37. Quantum Dots-Carbonaceous Nanohybrid Composites: Preparation and Application in Electrochemical Energy Storage, Ting Shen, Liping Yang, Mei Er Pam, Yumeng Shi * and H. Y. Yang*, Journal of Materials Chemistry A, 2020,8, 22488-22506 [IF:11.301]
36. Synthesis of Bismuth Sulfide Nanobelts for High Performance Broadband Photodetector, Jinzhuo Xu, Henan Li*, S. Fang, K. Jiang, H. Yao, F. Fang, F. Chen, Y. Wang and Yumeng Shi*, Journal of Materials Chemistry C, 2020, 8, 2102-2108 [IF: 7.059]
35.Stimuli-Enabled Artificial Synapses for Neuromorphic Computing: Progress and Perspectives, Xuan Pan, Tengyu Jin, Jing Gao, Cheng Han, Yumeng Shi*, Wei Chen*, Small, 2020, 16, 2001504. [IF:11.459]
34. Nanoframes@CNT Beads-on-a-String Structures: Towards an Advanced High-energy Sodium-ion Full Battery, S. Chen, S. Fan, D. Xiong, M. E. Pam, Y. Wang, Yumeng. Shi*, and H. Y. Yang*, Small, 2020, Accepted [IF:11.459]
33. Grain-Boundary-Induced Ultralow-Threshold Random Laser in a Single GaTe Flake, Chen, Zuxin; Zhang, Yingjun; Chu, Sheng; Wang, Jun; Chen, Jiapeng; Wei, Bin; Zhang, Xin; Zhou, Weihang; Shi, Yumeng*; Wang, Zhongchang*, ACS Applied Materials Interfaces, 2020, 12, 23323−23329 [IF:8.758]
32. Rapid Synthesis and Mechanochemical Reactions of Cesium Copper Halides for Convenient Chromaticity Tuning and Efficient White Light Emission, Shaofan Fang, Henan Li, Feier Fang, Ke Jiang, Zexiang Liu, Ye Wang, Huixia Li, Yumeng Shi*, Journal of Materials Chemistry C, 2020,8, 4895-49012020 [IF: 7.059]
31. Water-aided reversible phase transitions between Cs4PbBr6, CsPbBr3, and CsPb2Br5 for large-scale synthesis, Zhou, Bo; Ding, Dong; Wang, Ye; Chen, Fuming; Fang, Shaofan; Fang, Feier; Jiang, Ke; Liu, Zhexiang; Li, Henan*; Shi, Yumeng*, 2020, Advanced Optical Materials [IF: 9.926]
30. Boosting Chem-insertion and Phys-adsorption in S/N co-doped Porous Carbon Nanospheres for High-performance Symmetric Li-ion Capacitors, D. Yan, Yumeng Shi*, H.Y. Yang*, Journal of Materials Chemistry A, 2020, 8, 11529–11537. (Front Cover) [IF:11.301]
29. Morphological and Electronic Dual Regulation of Cobalt-Nickel Bimetal Phosphide Heterostructures Inducing High Water-Splitting Performance, S. Fan, J. Zhang, Q. Wu, S. Huang, J. Zheng, D. Kong, S. Chen, Y. Wang, L. K. Ang , Yumeng Shi*, and H. Y. Yang*, J. Phys. Chem. Lett., 2020, 11, 10, 3911–3919 [IF:6.71]
28. Photoluminescence Mechanisms of All-Inorganic Cesium Lead Bromide Perovskites Revealed by Single Particle Spectroscopy, Yiqun Jiang, Beiye Li, Tianxiang Zhang, Yumeng Shi,* and Qing-Hua Xu*, 2020, ChemNanoMat, 2020, 6, 327–335 [IF: 3.384]
2019
27. In situ transmission electron microscopy nano-cells for innovative energy materials, Zheng Fan, Jianyu Huang,* Daniel Baumann, Lin Mei, Tao Wang, Yuxing Yao, Yumeng Shi,* Yu Huang,* and Xiangfeng Duan*, Advanced Materials, 2019 ,1900608 [IF: 27.398]
26. Constructing stress-release layer on Fe7Se8-based composite for highly stable sodium-storage, Song Chen, Shaozhuan Huang, Yuan-Fang Zhang, Shuang Fan, Dong Yan, Yang Shang, Mei Er Pam,Qi Ge, Yumeng Shi* Hui Ying Yang*, Nano Energy 69 (2020) 104389 [IF: 19.069]
25. Boosting Sodium Storage of Fe1−xS/MoS2 Composite via Heterointerface Engineering, Song Chen, Shaozhuan Huang, Junping Hu, Shuang Fan, Yang Shang, Mei Er Pam, Xiaoxia Li, Ye Wang, Congcong Yang, Yumeng Shi,* Hui Ying Yang,* Nano Micro Letters, 2019, 11:80 [IF: 23.655]
24. Construction of complex NiS multi-shelled hollow structures with enhanced sodium storage, S. Fan, S. Huang, Y. Chen, Y. Shang, Y. Wang, D. Kong, M. Er Pam, L. Shi, Y. W. Lim, Yumeng Shi*, H. Y. Yang, * Energy Storage Materials, 2019, doi.org/10.1016/j.ensm.2019.05.043 [IF: 20.831]
23. Design Multifunctional Catalytic Interface: toward Regulation of Polysulfide and Li2S Redox Conversion in Li-S Batteries, Shuang Fan, Shaozhuan Huang, Mei Er Pam, Song Chen, Qingyun Wu, Junping Hu, Ye Wang, Lay Kee Ang, Congcong Yan, Yumeng Shi*, Hui Ying Yang*, Small, 2019, 15, 1906132, doi.org/10.1002/smll.201906132 [IF: 11.459]
22.Template growth of perovskites on yarn fibers induced by capillarity for flexible photoelectric applications, Dong Ding, Henan Li,* Huizhen Yao, Lai Liu, Bingbing Tian, Chenliang Su, Ye Wang and Yumeng Shi*, Journal of Materials Chemistry C, 2019, 7, 9496--9503 [IF: 7.059]
21. Self-powered perovskite/CdS heterostructure photodetectors, Zibo Li, Henan Li,* Ke Jiang, Dong Ding, Jieni Li, Chun Ma, Shangchi Jiang, Ye Wang, Thomas D. Anthopoulos,* Yumeng Shi*, ACS Appl. Mat. Interfaces 2019, 11, 43, 40204 40213, [IF: 8.758]
20. Toward the Growth of High Mobility 2D Transition Metal Dichalcogenide Semiconductors, Henan Li, Jing-Kai Huang, Yumeng Shi,* and Lain-Jong Li*, Advanced Materials Interfaces 2019, 1900220 [IF: 4.948]
19. Post-Treatment of CH3NH3PbI3/PbI2 Composite Films with Methylamine to Realize High-Performance Photoconductor Devices,Jieni Li, Henan Li,* Lai Liu, Huizhen Yao, Bingbing Tian, Chenliang Su, HaizheZhong, Ye Wang, Lifu Zhang, and Yumeng Shi*, Chem. Asian J. 2019, 14,2861–2868 [IF: 4.056]
18. The photoluminescence mechanism of CsPb2Br5 microplates revealed by spatially resolved single particle spectroscopy, Zhang, T.; Chen, Z.; Yumeng Shi, *; Xu, Q.-H.*, Nanoscale 2019, 11 (7), 3186-3192. [IF: 6.895]
17. All Manganese-based Oxide Nanocrystal Cathode and Anode for High Performance Lithium-Ion Full-Cell’, S. Chen, Y. Shi*, Y. Wang, Y. Shang, W. Xia and H. Y. Yang*, Nanoscale Advances, 2019, 1, 1714.
16. Bifunctional nickel oxide-based nanosheets for highly efficient overall urea splitting, Fengchi Wu, Gang Ou, Jun Yang, Henan Li,* Yanxia Gao, Fuming Chen, Ye Wang and Yumeng Shi*, Chem. Commun., 2019,55, 6555-6558 [IF: 6.164]
15. Effects of precursor pre-treatment on the vapor deposition of WS2 monolayers, Pam, M. E.; Yumeng Shi,*; Hu, J.; Zhao, X.; Dan, J.; Gong, X.; Huang, S.; Geng, D.; Pennycook, S.; Ang, L. K.; Yang, H. Y.*, Nanoscale Advances 2019, 1 (3), 953-960.
14. Thermal-Assisted Vertical Electron Injections in Few-Layer Pyramidal-Structured MoS2 Crystals, Pam, M. E.; Li, Z.; Ang, Y. S.; Yumeng Shi, *; Geng, D.; Huang, S.; Zhao, X.; Pennycook, S. J.; Yao, H.; Gong, X.; Ang, L. K.; Yang, H. Y*.,J. Phys. Chem. Lett. 2019, 10 (6), 1292-1299. [IF: 6.71]
13. Boosting the Electrocatalytic Water Oxidation Performance of CoFe2O4 Nanoparticles by Surface Defect Engineering, Ou, G.; Wu, F.; Huang, K.; Hussain, N.; Zu, D.; Wei, H.; Ge, B.; Yao, H.; Liu, L.; Li, H.; Yumeng Shi,*.; Wu, H.*, ACS Appl. Mat. Interfaces 2019, 11 (4), 3978-3983. [IF: 8.758]
12. Location-selective growth of two-dimensional metallic/semiconducting transition metal dichalcogenide heterostructures, Gong, X.; Zhao, X.; Pam, M. E.; Yao, H.; Li, Z.; Geng, D.; Pennycook, S. J.; Yumeng Shi*; Yang, H. Y.*, Nanoscale 2019.[IF: 8.307]
11. Polypyrrole Coated Niobium Disulfide Nanowires as High Performance Electrocatalysts for Hydrogen Evolution Reaction, X. Gong, D. Kong, M. E. Pam, L. Guo, S. Fan, S. Huang, Y. Wang, Y. Gao, Y. Shi*, H. Y. Yang*, Nanotechnology, 2019, 4, 405601. [3.551]
2018
10. Epitaxial Growth of Two-Dimensional Layered Transition-Metal Dichalcogenides: Growth Mechanism, Controllability, and Scalability, Henan Li, Ying Li, Areej Aljarb, Yumeng Shi*, and Lain-Jong Li* , Chemical Reviews, 2018, 118 (13), 6134-6150. [IF: 72.087]
9. Tailoring NiO Nanostructured Arrays by Sulfate Anions for Sodium-Ion Batteries. Zhang, Y.; Lim, Y. V.; Huang, S.; Pam, M. E.; Wang, Y.; Ang, L. K.; Shi, Y.*; Yang, H. Y.*, Small 2018, 14 (28). [IF: 11.459]
8. The Synthesis and Optoelectronic Applications of Graphene/Transition Metal Dichalcogenides Flat-Pack Assembly, Henan Li, Yuemng Shi*, Lain-Jong Li,* Carbon 2018, 127, 602-610. [IF: 11.307]
7. Significant photoluminescence enhancement in WS2 monolayers through Na2S treatment. Huizhen Yao, Lai Liu, Zhuo wang, Henan Li, Longlong Chen, Meri Er Pam, Weigang Che, Hui Ying Yang, Yumeng Shi*, Wenjing Zhang*, Nanoscale 2018, 10 (13), 6105-6112 [IF: 8.307]
6. MoSx-coated NbS2 nanoflakes grown on glass carbon: an advanced electrocatalyst for the hydrogen evolution reaction. Zhou, X.; Lin, S.-H.; Yang, X.; Li, H.; Hedhili, M. N.; Li, L.-J.; Zhang, W.; Shi, Y.*, Nanoscale 2018, 10 (7), 3444-3450. [IF: 8.307]
5. Direct Observation of Perovskite Photodetector Performance Enhancement by Atomically Thin Interface Engineering. Li, Z.; Li, J.; Ding, D.; Yao, H.; Liu, L.; Gong, X.; Tian, B.; Li, H.; Su, C.; Shi, Y*. ACS Appl. Mat. Interfaces 2018, 10 (42), 36493-36504. [IF: 8.758]
2017
4. Fe2O3 nanothorns sensitized two-dimensional TiO2 nanosheets for highly efficient solar energy conversion, Huizhen Yao, Li Liu, Wuyou Fu, Haibin Yang, Yumeng Shi*, Flat Chem, 2017,3,1-7 [IF: 5.829]
3. A review on the research progress of tailoring photoluminescence of monolayer transition metal dichalcogenides, Henan Li, Mei Er Pam, Yumeng Shi*, Huiying Yang*, Flat Chem, 2017,4,48 [IF: 5.829]
2016
2. Laterally Stitched Heterostructures of Transition Metal Dichalcogenide: Chemical Vapor Deposition Growth on Lithographically Patterned Area, Henan Li, Peng Li, Jing-Kai Huang, Ming-Yang Li, Chih-Wen Yang, Yumeng Shi*, Xi-Xiang Zhang*, and Lain-Jong Li*, ACS Nano, 2016, 10 (11), pp 10516–10523, DOI: 10.1021/acsnano.6b06496 [IF: 18.027]
1. Photoluminescence enhancement and structure repairing of monolayer MoSe2 by hydrohalic acid treatment, Hau-Vei Han, Ang-Yu Lu, Li-Syuan Lu, Jing-Kai Huang, Henan Li, Chang-Lung Hsu, Yung-Chang Lin, Ming-Hui Chiu, Kazu Suenaga, Chih-Wei Chu, Hao-Chung Kuo, Wen-Hao Chang, Lain-Jong Li, Yumeng Shi*, ACS Nano, 2016, 10 (1), pp 1454–1461 [IF: 18.027]
专著/译著
专著章节
Chapter 3 Photoelectrical Responses of Carbon Nanotube-Polymer Composites, in "Carbon Nanotube-Polymer Composites" Editor: Dimitrios Tasis, Royal Society of Chemistry
Chapter 10 The Family of Two-dimensional Transition Metal Chalcogenides Materials in "Ambipolar Materials and Devices" Royal Society of Chemistry
Chapter 11 Controllable Synthesis of Two-dimensional Layered Transition Metal Chalcogenides and Their Heterostructures, in "Ambipolar Materials and Devices" Royal Society of Chemistry
Chapter 19 Synthesis of Transition metal dichalcogenides in "2D Materials" Editor Phaedon Avouris, Tony Heinz and Tony Low, Cambridge University Press
专利
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| 一种有效提升单层二维过渡金属硫族化合物产率、品质的方法,ZL201710979013.1 | |||||||
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| 一种超薄PbI2bI2单晶的制备方法,201810162686.2 | |||||||
| 一种无溶剂钙钛矿光电器件的制备方法,201811131625.6 | |||||||
| 一种钙钛矿粉体的制备方法,201811132753.2 | |||||||
| 零维铯铅溴无机钙钛矿材料及其制备方法,202010865979.4 | |||||||
| 二维过渡金属硫族化合物的连续制备方法,202011249565.5 | |||||||
| 无铅铟基双钙钛矿材料及其制备方法与应用,202011171658.0 | |||||||
软件著作权
获奖与荣誉
时玉萌博士,现任北京交通大学物理科学与工程学院教授、博士生导师。2016年获国家级海外人才项目(青年千人)支持,归国工作。2016-2024年间曾于深圳大学工作,曾任深圳大学教授,特聘教授,博士生导师,第七届学术委员会委员,第一届校学术道德委员会委员,“新锐研究生导师”,广东省二维材料信息功能器件及系统工程中心副主任。2021年11月起获聘为深圳大学电子与信息工程学院长聘教授(tenured Professor)。自2024年7月起,于北京交通大学物理工程学院光电子技术研究所从事研究工作。
时玉萌博士主要研究方向着力于低维纳米半导体信息光电材料合成制备及应用。基于低维纳米材料外延生长行为,可控制备具有独特构效特性的低维光电材料。通过原位稳态、瞬态以及扫描光电成像等表征技术,探索低维材料表界面以及晶格畸变下新奇的电荷输运、电子-声子耦合及激子跃迁行为,基于新颖的物理电子学机制,拓展新型材料在半导体光电子器件、能源器件中的应用。
时玉萌博士以第一或通讯作者在Science, Science Advances, Nature Nanotechnology, Nature Comm, Chemical Reviews, Chemical Society Reviews, Advanced Materials, Advanced Functional Materials, Advanced Science, ACS Energy Letters, Nano Letters, ACS Nano, J. Am. Chem. Soc., Angewandte Chemie International Edition,Nano-Micro Letters等高影响力学术期刊发表论文240余篇,总引用>27,000次,H-index 62,在低维材料可控制备方法及光电器件应用方面获得多项发明专利授权。连续多年入选科睿唯安(Clarivate Analytics)物理类,材料科学,及跨学科类“全球高被引学者”(Highly Cited Researchers);光学工程领域“中国高被引学者”,Elsevier“全球前2%顶尖科学家” (World’s Top 2% Scientists 2021),及“终身科学影响力排行榜” 榜单(1960-2021 Career-Long Impact)。
2021-2023 连续入选爱思唯尔(Elsevier) “纳米科学与工程领域”全球前2%顶尖科学家(World’s Top 2% Scientists 2021) ;
2021-2023 连续入选爱思唯尔(Elsevier) “全球终身科学影响力排行榜” 榜单( Career-Long Impact);
2021-2022 入选科睿唯安(Clarivate) “跨领域”全球高被引学者(Highly Cited Researcher);
2021-2022 连续入选爱思唯尔(Elsevier) “光学工程”领域中国高被引科学家(Highly Cited Chinese Researcher);
2019-2021 连续入选科睿唯安(Clarivate) “材料科学”全球高被引学者(Highly Cited Researcher);
2018-2019 入选睿唯安(Clarivate) “物理类” 全球高被引学者 (Highly Cited Researcher);
2016 国家海外人才项目 “青年项目”获得者;
2013新加坡“杰出工程贡献奖” Prestigious Engineering Achievement Award;
2013 新加坡“陈嘉庚青年发明奖” (Tan Kah Kee Young Inventors' Award)
2010 教育部国家留学基金委 “国家优秀自费留学生奖学金”
2006 北京交通大学 “京东方中和”奖学金