國立中興大學物理學系

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Ming-Way Lee

Tel 22840427 Ext:397   Semiconductor - sensitized solar cells Quantum dot-sensitized solar cells
  • Education
    1973-1976 B.S. in Physics, National Tsing Hua University, R.O.C
    1979-1985 Ph.D. in Physics, The University of Texas at Dallas, U.S.A
     
    Work Experience
    1985-1989 Postdoctoral research fellow of Physics Dept., University of Maryland, U.S.A
    1990-1997 Associate Professor of Physics, National Chung-Hsing University, R.O.C
    1998- Professor of Physics, National Chung-Hsing University, R.O.C
  • Semiconductor - sensitized solar cells
    Quantum dot-sensitized solar cells 

    My research interest focuses on the synthesis of new semiconductor nanoparticles using chemical methods,and the applications of these materials in semiconductor-sensitized solar cells,which have a structure similar to dye-sensitized solar cells.
    5-6520
    1. D. C. Liu, B. A. Aragaw, J. B. Shi, M. W. Lee,* “PbBi4S7: a new infrared solar absorber material exhibiting high photocurrents”, Journal of the Electrochemical Society, 164 (7), F804-F808 (2017).
    2. Y. C. Zeng, S. F. Sie, N. Suriyawong, B. A. Aragaw, J. B. Shi, M. W. Lee,* “Lead Tin Sulfide (Pb1-xSnxS) nanocrystals: a potential solar absorber material”, Journal of Colloid & Interface Science, 488, 246-250 (2017).
    3. S. U. Rahayu, C. L. Chou, N. Suriyawong, B. A. Aragaw, J. B. Shi, M. W. Lee,* “Sodium antimony Sulfide (NaSbS2): turning an unexpected impurity into a promising, environmentally friendly novel solar absorber material”, APL Materials 4, 116103 (2016).
    4. Y. W. Chen, S. F. Sie, N. Suriyawong, B. A. Aragaw, S. S. Chien, J. B. Shi, M.W. Lee,* “Pb5Sb8S17 liquid-junction quantum dot-sensitized solar cells: improved performance by modifying the particle size of the TiO2 electrode”, Journal of the Electrochemical Society , 163 (14) , H1122-H1126, (2016)
    5. Tubtimtae, C. L. Huang, J. B. Shi, M. W. Lee,* “Ag3SbS3 thin films formed by annealing hydrothermally synthesized Ag3SbS3 nanoparticles”, Materials Letters, 177, 58-60 (2016).
    6. N. Suriyawong, B. Aragaw, J.B. Shi, M.W. Lee*, “Ternary CuBiS2 nanoparticles as a sensitizer for quantum dot solar cells”, Journal of Colloid & Interface Science, 473, 60-65 (2016).
    7. C. L. Chou, N. Suriyawong, B. Aragaw, J. B. Shi and M. W. Lee,* “Ag3SbS3 liquid-junction semiconductor-sensitized solar cells”, Journal of the Electrochemical Society, 163, H445-H449 (2016)
    8. Y. C. Chang, N. Suriyawong, B. A. Aragaw, J. B. Shi, P. Chen, M. W. Lee*, “Lead Antimony Sulfide (Pb5Sb8S17) Solid-State Quantum Dot-Sensitized Solar Cells with an Efficiency of over 4%”, Journal of Power Sources, 312, 86-92 (2016). 
    9. T. Kao, J. B. Shi,* H. W. Lee, F. C. Cheng, H. H. Liu, M. W. Lee, C. C. Chan, C. W. Huang, H. S. Lin, P. F. Wu, C. Y. Chen, M. C. Kao, S. L. Young, and C. L. Lin, “Temperature-Dependent Effects of FeS2 Thin Film Synthesized by Thermochemical Spraying: An Optical and Physicochemical Investigation”, Journal of Thermal Spray Technology, 25, 580-586 (2016).
    10. Shi, JB; Wu, PF; Lin, YT; Chen, CJ; Kao, CT; Lin, HS; Lee, HW; Liu, HH; Lee, MW; Chen, CY; Young, SL; Kao, MC; Kang, TK; Lin, CL; Yang, PC; Yang, SY, “Preparation and characterization of single crystalline In-Sn oxide nanowires”, Vacuum 117 (2015) 50-54
    11. Hsieh, YD; Lee, MW; Wang, GJ, “Sb2S3 Quantum-Dot Sensitized Solar Cells with Silicon Nanowire Photoelectrode”, International Journal of Photoenergy,2015(2015), 213858(10)
    12. A. Tubtimtae,* Y. C. Wu, Y. C. Chen, J. B. Shi, M. W. Lee,* “Tailoring CuxS semiconductor-sensitized SnO2 solar cells”, Materials Letters 147, 16-19 (2015)
    13. J. B. Shi, P. F. Wu, C.T. Kao, M.W. Lee, C.C. Chan, P. C. Yang, C.L . Lin, R. Y. Huang, Y.J. Huang, S. K. Lin, F.C. Cheng, H. S. Lin, H. W. Lee, “Influence of selenization temperature on synthesis, morphology and properties of nanostructured CoSe2 films”, Crystal Research Technology 50, 155–159 (2015)
    14. D. E. Lee, J. Y. Wu, W. Z. Lin, and M. W. Lee,* “Sb2Se3 Liquid-Junction Semiconductor-Sensitized Solar Cells”, Journal of the Electrochemical Society, 161 (14), H880-H884 (2014)
    15. W. C. Yang and M. W. Lee,* ”Enhanced Photovoltaic Performance in AgSbS2 Liquid-Junction Semiconductor-Sensitized Solar Cells”, Journal of the Electrochemical Society, 161 (3), H92-H96 (2014)
    16. A. Tubtimtae, K. Y. Cheng, M. W. Lee,* “Ag2S quantum dot-sensitized WO3 photoelectrodes for solar cells, Journal of Solid State Electrochemistry 18, 1627-1633 (2014)
    17. J. J. Liu and M. W. Lee,* “Lead Antimony Sulfide Semiconductor-Sensitized Solar Cells, Electrochimica Acta, 119, 59-63. (2014)
    18. Y. C. Lin, M. W. Lee,* “Bi2S3 liquid-junction semiconductor-sensitized SnO2 solar cells”, Journal of the Electrochemical Society, 161 (1), H1-H5 (2014)
    19. P. C. Huang, W. C. Yang, M. W. Lee,* “AgBiS2 semiconductor-sensitized solar cells”, Journal of Physical Chemistry C, 117, 18308-18314 (2013).
    20. A. Tubtimtae,* M. W. Lee, ”Optical and Photovoltaic Properties of CdS/Ag2S Quantum Dots Cosensitized-Solar Cells”, Materials Science Forum, 761, 15-18 (2013)
    21. Y. R. Ho, M. W. Lee*, “AgSbS2 semiconductor-sensitized solar cells”, Electrochemistry Communications, 26, 48-51 (2013).
    22. A. Tubtimtae, M. W. Lee*, “Effects of passivation treatment on performance of CdS/CdSe quantum-dot co-sensitized solar cells”, Thin Solid Films, 526, 225-230 (2012).
    23. Tubtimtae,* M. W. Lee, “ZnO nanorods on undoped and indium-doped ZnO thin films as a TCO layer on nonconductive glass for dye-sensitized solar cells" Superlattices and Microstructures, 52, 987-996 (2012).
    24. M. C. Lin, M. W. Lee*,Cu2-xS quantum dot-sensitized solar cells”, Electrochemistry Communications, 13, 1376-1378 (2011).
    25. A. Tubtimtae, M. W. Lee*, G. J. Wang “Ag2Se quantum-dot sensitized solar cells for full solar spectrum light harvesting”, Journal of Power Sources, 196, 6603-6608 (2011).
    26. M. H. Lai, M. W. Lee*, G. J. Wang and M. F. Tai, “Photovoltaic Performance of New-structure ZnO-Nanorod Dye-Sensitized Solar Cells”, International Journal of Electrochemical Science, 6, 2122-2130 (2011).
    27. G. J. Wang,* M. W. Lee, W. Z. Chen, Y, Hong Chen, M. C. Chien and M. C. Yu, “A metal-solution field-effect transistor enhanced proton-motive-force driving photovoltaic”. IEEE Transactions on Nanotechnology 10, 191 (2011). (selected as the cover of the issue)
    28. A. Tubtimtae, K. L. Wu, H. Y. Tung, M. W. Lee,* G. J. Wang, “Ag2S Quantum Dot-Sensitized Solar Cells”, Electrochemistry Communications, 12, 1158 (2010)
    29. M. H. Lai, A. Tubtimtae, M. W. Lee,*. Chen, G. J. Wang, “ZnO-Nanorod Dye-Sensitized Solar Cells: New Structure without a Transparent Conducting Oxide Layer”, International Journal of Photoenergy, Vol. 2010, Article ID: 497095, DOI: 10.1155/2010/497095
    30. G. Y. Chen, M. W. Lee, G. J. Wang*, “Fabrication of Dye-Sensitized Solar Cells with a 3D Nanostructured Electrode” International Journal of Photoenergy, Vol. 2010, Article ID: 585621, doi: 10.1155/2010/585621, (2010)
    31. M. W. Lee,* W. C. Lai and K. J. Huang, “Angle-resolved field emission of individual carbon nanotubes”, Jpn. J. Appl. Phys. 48, 072402, (2009).
    32. M. W. Lee,* D. L. Lee, W. N Yen, C. Y. Yeh, “Synthesis, optical and photovoltaic properties of porphyrin dyes”, J. Macromolecular Science, Part A, 46, 730-737 (2009).
    L. C. Li, S. Y. Huang, J. A. Wei, Y. W. Suen*, M. W. Lee, W. H. Hsieh, T. W. Liu, and C. C. Chen, “Correlated Electric Fluctuations in GaN Nanowire Device”, J. Nanoscience and Nanotechnolgy 9, 1000 (2009).