Your search keyword '"Yu, Ji-Ming"' showing total 26 results

1. Target of Opportunity Observations Detectability of Kilonovae with WFST

Author

Liu, Zheng-Yan, Lin, Zhe-Yu, Yu, Ji-Ming, Wang, Hui-Yu, Mourani, Gibran-Marc, Zhao, Wen, and Dai, Zi-Gao

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Kilonovae are approximately thermal transients, produced by mergers of binary neutron stars (BNSs) and NS-black hole binaries. As the optical counterpart of the gravitational wave event GW170817, AT2017gfo is the first kilonova detected with smoking-gun evidence. Its observation offers vital information for constraining the Hubble constant, the source of cosmic $r$-process enrichment, and the equation of state of neutron stars. The 2.5-meter Wide-Field Survey Telescope (WFST) operates at six bands (u, g, r, i, z, w), spanning from 320 to 925 nm. It will be completed in the first half of 2023, and with a field-of-view diameter of 3 degrees, aims to detect kilonovae in the near future. In this article, considering the influence of the host galaxies and sky brightness, we generate simulated images to investigate WFST's ability to detect AT2017gfo-like kilonovae. Due to their spectra, host galaxies can significantly impact kilonova detection at a longer wavelength. When kilonovae are at peak luminosity, we find that WFST performs better in the g and r bands and can detect 90\% (50\%) kilonovae at a luminosity distance of 248 Mpc (338 Mpc) with 30 s exposures. Furthermore, to reflect actual efficiency under target-of-opportunity observations, we calculate the total time of follow-up under various localization areas and distances. We find that if the localization areas of most BNS events detected during the fourth observing (O4) run of LIGO and Virgo are hundreds of deg$^2$, WFST is expected to find $\sim$30\% kilonovae in the first two nights during O4 period., Comment: 18 pages, 11 figures, accepted for publication by ApJ

Published

2023

2. A crystalline organic hybrid thiogallate containing high content of amino groups for efficient Cr(VI) removal

Author

Yu, Ji-Ming, Pan, Zhechuan, Wu, Jiansheng, Zhai, Longfei, Li, Hao, Li, Haohao, and Xiong, Wei-Wei

Published

2024

3. Rational design of p-ZnS@CN with 3D interconnected hierarchical pore structure through pyrolysis of an organic hybrid zinc thiocyanide for electrochemical lithium storage

Author

Zhai, Longfei, Yu, Ji-Ming, Yang, Ting, Li, Haohao, Li, Hao, Pan, Zhechuan, and Xiong, Wei-Wei

Published

2023

4. An inorganic-organic hybrid indium tin selenide featuring a two-dimensional layered structure for high efficient photocatalytic Cr(VI) reduction

Author

Yang, Ting, Yu, Ji-Ming, Zhai, Longfei, Jia, Shanqing, Yang, Chuang, Xiong, Wei-Wei, and Zhang, Qichun

Published

2023

5. Surface modification of organic hybrid indium sulfide via silver ion decoration with enhanced photocatalytic activity for degrading organic dyes and antibiotics

Author

Jia, Shanqing, Yu, Ji-Ming, Zhai, Longfei, Yang, Chuang, Yang, Ting, Li, Hao, Pan, Zhechuan, Zheng, Bing, and Xiong, Wei-Wei

Published

2023

6. Two-dimensional layered organic hybrid selenidostannate coupled with polyaniline for high efficient photocatalytic Cr(VI) reduction

Author

Yang, Chuang, Yu, Ji-Ming, Zhai, Longfei, Jia, Shanqing, Yang, Ting, Xiong, Wei-Wei, and Zhang, Qichun

Published

2023

7. A crystalline organic hybrid indium antimony sulfide for high performance lithium/sodium storage

Author

Zhai, Longfei, Yu, Ji-Ming, Jia, Shanqing, Yang, Ting, Yang, Chuang, Liu, Wei, Zhang, Erzhuo, Zheng, Bing, and Xiong, Wei-Wei

Published

2022

8. Pyrolyzing a Crystalline Organic Hybrid Ternary Selenide to a Bimetallic Selenide Heterostructure NiSe2/SnSe2@CN for Electrochemical Sodium Storage.

Author

Li, Haohao, Zhai, Longfei, Yu, Ji-Ming, Luo, Jiahua, Hu, Bing, Hou, Chunhui, Han, Yimin, Pei, Wen-Bo, and Xiong, Wei-Wei

Published

2024

9. Two silver chalcogenidoantimonates synthesized in piperazine and their high performances for visible-light driven Cr(VI) reduction

Author

Wang, Huan, Yu, Ji-Ming, Wang, Ning, Xiao, Lu-Lu, Yu, Ji-Peng, Xu, Qi, Zheng, Bing, Cheng, Fang-Fang, and Xiong, Wei-Wei

Published

2021

10. Using highly reactive tellurium precursors to synthesize organic hybrid indium-tellurides

Author

Xiao, Lu-Lu, Wang, Ning, Zheng, Bing, Yu, Ji-Ming, Yu, Ji-Peng, Wang, Huan, Xu, Qi, Cheng, Fang-Fang, and Xiong, Wei-Wei

Published

2021

11. Intercalating Organic Hybrid Cadmium Antimony Sulfide Nanoparticles into Graphene Oxide Nanosheets for Electrochemical Lithium Storage.

Author

Zhai, Longfei, Li, Hao, Wu, Jiansheng, Luo, Jiahua, Yu, Ji-Ming, Pan, Zhechuan, Li, Haohao, Hu, Bing, Zheng, Bing, and Xiong, Wei-Wei

Published

2024

12. Syntheses, structures and properties of a series of heterometallic-organic frameworks based on pyridinedicarboxylic acids

Author

Ma, Zhong-Jie, Li, Wei, Yu, Ji-Ming, Zhang, Zhizhuan, Zhu, Xiao-Qin, Xiong, Wei-Wei, and Huang, Xiao-Ying

Published

2020

13. Target-of-Opportunity Observation Detectability of Kilonovae with WFST

Author

Liu, Zheng-Yan, primary, Lin, Zhe-Yu, additional, Yu, Ji-Ming, additional, Wang, Hui-Yu, additional, Mourani, Gibran-Marc, additional, Zhao, Wen, additional, and Dai, Zi-Gao, additional

Published

2023

14. Thermodynamic Transformation of Crystalline Organic Hybrid Iron Selenide to FexSey@CN Microrods for Sodium Ion Storage

Author

Zhai, Longfei, primary, Yu, Ji-Ming, additional, Yu, Ji-Peng, additional, Xiong, Wei-Wei, additional, and Zhang, Qichun, additional

Published

2022

15. Effective Enrichment of Low-Concentration Rare-Earth Ions by Three-Dimensional Thiostannate K2Sn2S5

Author

Yu, Ji-Ming, primary, Luo, Da, additional, Ma, Zhong-Jie, additional, Zheng, Bing, additional, Cheng, Fang-Fang, additional, and Xiong, Wei-Wei, additional

Published

2021

16. Thermodynamic Transformation of Crystalline Organic Hybrid Iron Selenide to FexSey@CN Microrods for Sodium Ion Storage.

Author

Zhai, Longfei, Yu, Ji-Ming, Yu, Ji-Peng, Xiong, Wei-Wei, and Zhang, Qichun

Published

2022

17. Two Series of Main-Group Heterometallic Selenides Synthesized in Two Different Types of Ionic Liquids

Author

Yu, Ji-Ming, primary, Yu, Ji-Peng, additional, Wang, Ning, additional, Xiao, Lu-Lu, additional, Wang, Huan, additional, Xu, Qi, additional, Zheng, Bing, additional, Cheng, Fang-Fang, additional, and Xiong, Wei-Wei, additional

Published

2021

18. Using thiol-amine solvent mixture to prepare main group heterometallic chalcogenides

Author

Yu, Ji-Ming, primary, Cai, Ting, additional, Ma, Zhong-Jie, additional, Wang, Fei, additional, Wang, Huan, additional, Yu, Ji-Peng, additional, Xiao, Lu-Lu, additional, Cheng, Fang-Fang, additional, and Xiong, Wei-Wei, additional

Published

2020

19. Effective Enrichment of Low-Concentration Rare-Earth Ions by Three-Dimensional Thiostannate K2Sn2S5.

Author

Yu, Ji-Ming, Luo, Da, Ma, Zhong-Jie, Zheng, Bing, Cheng, Fang-Fang, and Xiong, Wei-Wei

Published

2021

20. Research on Low Temperature Condensation of Flue Gas from Gas Industrial Boiler

Author

Guan Jian, Yu Ji-Ming, and Li Juan

Subjects

Condensed Matter::Quantum Gases, Flue gas, Materials science, Waste management, Condensed Matter::Other, Boiler (power generation)

Abstract

The paper analyzed the heat transfer in the condensing section of condensing gas industrial boiler. As to the operation of boiler, the field test of the flue gas condensing section was carried out where the field test data was compared with the theoretical values to verify the calculation formula of the convective exothermic coefficient of the condensing section in the condensing boiler’s spiral rib.

Published

2020

21. Thermodynamic Transformation of Crystalline Organic Hybrid Iron Selenide to FexSey@CN Microrods for Sodium Ion Storage

Author

Zhai, Longfei, Yu, Ji-Ming, Yu, Ji-Peng, Xiong, Wei-Wei, and Zhang, Qichun

Abstract

Carbon-coated metal chalcogenide composites have been demonstrated as one type of promising anode material for sodium-ion batteries (SIBs). However, combining carbon materials with micronanoparticles of metal chalcogenide always involve complicated processes, such as polymer coating, carbonization, and sulfidation/selenization. To address this issue, herein, we reported a series of carbon-coated FexSey@CN (FexSey= FeSe2, Fe3Se4, Fe7Se8) composites prepared via the thermodynamic transformation of a crystalline organic hybrid iron selenide [Fe(phen)2](Se4) (phen = 1,10-phenanthroline). By pyrolyzing the bulk crystals of [Fe(phen)2](Se4) at different temperatures, FexSeymicrorods were formed in situ, where the nitrogen-doped carbon layers were coated on the surface of the microrods. Moreover, all the as-prepared FexSey@CN composites exhibited excellent sodium-ion storage capabilities as anode materials in SIBs. This work proves that crystalline organic hybrid metal chalcogenides can be used as a novel material system for the in situ formation of carbon-coated metal chalcogenide composites, which could have great potential in the application of electrochemical energy storage.

Published

2024

22. The Design and Simulation of Collision Avoidance System Based on Dual-Mode Collaborative

Author

Chen, Shuo, primary, Yu, Ji Ming, additional, and Liu, Yan, additional

Published

2014

23. Collision-Avoiding Aware Routing Based on Real-Time Hybrid Traffic Infomations

Author

Yu, Ji Ming, primary, Yan, Xiao Yong, additional, Xu, Nan, additional, and Yang, Yu Wang, additional

Published

2011

24. Energy-Saving Algorithm Design and Simulation in Intelligent Street Lamp System

Author

Yu, Ji Ming, primary, Wu, Feng, additional, and Yan, Xiao Yong, additional

Published

2011

25. Research on Low Temperature Condensation of Flue Gas from Gas Industrial Boiler.

Author

Yu Ji-Ming, Li Juan, and Guan Jian

Published

2020

26. Thermodynamic Transformation of Crystalline Organic Hybrid Iron Selenide to Fe x Se y @CN Microrods for Sodium Ion Storage.

Author

Zhai L, Yu JM, Yu JP, Xiong WW, and Zhang Q

Abstract

Carbon-coated metal chalcogenide composites have been demonstrated as one type of promising anode material for sodium-ion batteries (SIBs). However, combining carbon materials with micronanoparticles of metal chalcogenide always involve complicated processes, such as polymer coating, carbonization, and sulfidation/selenization. To address this issue, herein, we reported a series of carbon-coated Fe x Se y @CN (Fe x Se y = FeSe 2 , Fe 3 Se 4 , Fe 7 Se 8 ) composites prepared via the thermodynamic transformation of a crystalline organic hybrid iron selenide [Fe(phen) 2 ](Se 4 ) (phen = 1,10-phenanthroline). By pyrolyzing the bulk crystals of [Fe(phen) 2 ](Se 4 ) at different temperatures, Fe x Se y microrods were formed in situ, where the nitrogen-doped carbon layers were coated on the surface of the microrods. Moreover, all the as-prepared Fe x Se y @CN composites exhibited excellent sodium-ion storage capabilities as anode materials in SIBs. This work proves that crystalline organic hybrid metal chalcogenides can be used as a novel material system for the in situ formation of carbon-coated metal chalcogenide composites, which could have great potential in the application of electrochemical energy storage.

Published

2022