Contact Information

  • Name:Jiwei Zhai
  • Phone:021-69584759, 13122389697
  • Fax:
  • Email:apzhai@tongji.edu.cn, zhaijiweitj@163.com
  • Personal home page:jwzhailab.tongji.edu.cn
  • Title:

Research Fields:

Microwave dielectric materials (including LTCC materials) and devices
Ferroelectric and piezoelectric materials (including thin films) and devices
Semiconductor alloy film materials and devices
 

Current Courses:

Physical Properties of Materials (for Undergraduate Student)
Physical Chemistry of Inorganic Materials ( for Undergraduate Student)
Current Situation and Development Trend of New Material Science ( in English, for Undergraduate Student)
Photoelectric Information Materials ( in English, for Undergraduate Student)
Generation Introduction to Optical Materials ( in English, for Graduate Student)

 

 

Projects:

1) Research theme: Research on silver nanoclusters manipulated spectral modulation and luminescence enhancement in rare earth doped glasses (Grant No. 51872200)
Sponsor: National Science Foundation of China  
Period of implementation: 01/2019-12/2022  
2) Research theme: High efficient luminescent glasses based on the sensitization of Ag nanoclusters to rare earth ions  (Grant No.18ZR1441900)
Sponsor: National Science Foundation of Shanghai    
Period of implementation: 06/2018-05/2021  
3) Research theme: Full-spectrum down-conversion polycrystalline glass-ceramics for high-efficiency photovoltaic conversion (Grant No.14ZZ037)
Sponsor: Shanghai Scientific Research Innovation Projects
Period of implementation: 01/2014-12/2016  
 

Publications:


1. Huazhen Liao, Song Ye*, Xvsheng Qiao, Xuefeng Lie, Runjie Shen, Deping Wang, “Effective formation of Ag nanoclusters and efficient energy transfer to Yb3+ ions in silicate glasses for photovoltaic application”, Mater. Res. Bull, 111, 113-117, (2019)
2. Ping Xiao, Song Ye*, Huazhen Liao, Yanling Shi, Deping Wan, Extended color tunability and efficient white-light generation through the construction of β-NaYF4: Yb3+/Tm3+/Ho3+ @NaYF4 core-shell structured nanocrystals, J. Solid State Chem., 275, 63–69 (2019).
3. Ping Xiao, Song Ye*, Huazhen Liao, Deping Wang, Magnetic-optical bifunctional properties of sub-20 nm β-NaYF4:Yb3+, Er3+ @NaGdF4 core-shell nanocrystals, J. Alloys Compd., 767, 775-781 (2018).  
4. Zhuang Guo, Song Ye*, Ping Xiao, Deping Wang, Dual effects of LiF doping on the size evolution and luminescence properties of Ag nanoclusters in borosilicate glass. J, Non-Cryst. Solids, 502, 83-88, (2018).  
5. Song Ye*, Ping Xiao, Huazhen Liao, Song Li, Deping Wang, “Fast synthesis of sub-10 nm β-NaYF4:Yb3+, Er3+@NaYF4 core-shell upconversion nanocrystals mediated by oleate ligands”, Mater. Res. Bull, 103, 279-284 (2018) .  
6. Zhuang Guo, Song Ye*, Xvsheng Qiao, Deping Wang, “Luminescence properties and tunable emission of Ag NCs in oxyfluoride glass through REF3 (RE= Y, La and Gd) doping”, J. Am. Ceram. Soc., 101, 732-738 (2018 ).  
7. Xuefeng Li, Chunya Qian, Runjie Shen, Hui Xiao, Weishi Zhao, Song Ye*, “A Fluorescence Fiber Optic Temperature Sensor Based on Fused Upconversion Luminescent Nanoparticles”, Opt. Express, 26(23) 30753-30761 (2018)
8. Tianhua Liu, Zhuang Guo, Song Ye*, Deping Wang, “Upconversion white light generation in Yb3+/Ho3+/Tm3+ tri-doped glass-ceramics containing ZnO nanocrystals” J. Chin. Ceram. Soc., 46, 1507-1512 (2018).
9. Zhuang Guo, Song Ye*, Tianhua Liu, Song Li, Deping Wang,  “SmF3 doping and heat treatment manipulated Ag species evaluation and efficient energy transfer from Ag nanoclusters to Sm3+ ions in oxyfluoride glass”, J. Non-Cryst. Solids, 458, 80-85 (2017).
10. Song Li, Song Ye*, Xiao Chen, Tianhua Liu, Zhuang Guo, Deping Wang, OH- ions-controlled synthesis and upconversion luminescence properties of NaYF4:Yb3+, Er3+ nanocrystals via oleic acid-assisted hydrothermal process,  J. Rare-earth, 35, 753-760 (2017).
11. SongYe*, Zhuang Guo, Huiyun Wang, Tianhua Liu, Song Li, Deping Wang, “Evolution of Ag species and molecular-like Ag cluster sensitized Eu3+ emission in oxyfluoride glass for tunable light emitting” J. Alloys Compd. 15, 891-895, (2016).  
12. Huiyun Wang, Song Ye*, Tianhua Liu, Song Li, Deping Wang, “Molecular-Like Ag Clusters and Eu3+ Co-Sensitized Efficient Broadband Spectral Modification with Enhanced Yb3+ Emission”, J. Am. Ceram. Soc., 99, 2376-2381, (2016)    
13. Song Li, Song Ye*, Tianhua Liu, Zhuang Guo, Huiyun Wang, Deping Wang, “Dual role of the reactant MOH (M=Li, Na or K) in the growth of ZnO quantum dots under a sol–gel process: promoter and inhibitor”, RSC Adv., 6, 50173-50179, (2016).      
14. Song Li, Song Ye*, Tianhua Liu, Huiyun Wang, Deping Wang, “Enhanced up-conversion emissions in ZnO-LiYbO2: RE3+ (RE= Er or Ho) hybrid phosphors through surface modification”, J. Alloys Compd. 658, 85-90, (2016).        
15. SongYe*, Rongxuan Hu, Nan Jiang, Huiyun Wang, Deping Wang, “pH value manipulated phase transition, microstructure evolution and tunable upconversion luminescence in Yb3+-Er3+ codoped LiYF4/YF3 nanoparticles”, Dalton Trans., 44, 15583-15590, (2015).  
16. Huiyun Wang, Song Ye*, Song Li, Tianhua Liu, Jian Lin, Deping Wang ,“Broadband down-conversion through the co-contribution of simultaneous energy transfer from Eu3+/2+ to Yb3+ and CTS absorption of Yb3+”, J.Alloys Compd.  648, 13–17 (2015).  
17. Huiyun Wang, Song Ye*, Rongxuan Hu, Tianhua Liu, Song Li, Deping Wang, “Influence of crystalline phase on the quantum efficiency of Tb3+-Yb3+ co-doped glass ceramics containing fluoride nanocrystals”, J. Rare-earth, 33, 524-528 (2015).    
18. Song Ye*, Rongxuan Hu, Huiyun Wang, Deping Wang, “Enhanced near-infrared emission in phase and size controlled NaLnF4:Pr3+-Yb3+(Ln=Gd3+ and Y3+) nanocrystals ”, Mater. Res. Express, 2, 015001-1-9, (2015).
19. Rongxuan Hu, Song Ye*, Huiyun Wang, Wenjun Zhang, Zhiyuan Zhang, Jian Lin, Deping Wang, “Upconversion Luminescence Properties of Phase and Size Controlled NaLnF4:Yb3+, Er3+(Ln = Y, Gd) Nanoparticles”, J. Nanosci. Nanotechnol. 15, 368-372 (2015).
20. Song Ye*, Jiajia. Zhou, Shiting Wang, Rongxuan Hu, Deping Wang, Jianrong Qiu, “Broadband downshifting luminescence in Cr3+-Yb3+ codoped garnet for efficient photovoltaic generation”, Opt. Express, 21(4), 4167-4173 (2013).  


 

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