Dr. Zhan`ao  Tan
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Dr. Zhan`ao Tan

Professor
North China Electric Power University, China


Highest Degree
Doctorate in Physical Chemistry from Chinese Academy of Sciences, China

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Area of Interest:

Physical Science Engineering
100%
Semiconductors
62%
Nanocrystalline
90%
Optoelectronics Systems
75%
Solar Cell
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Zhou, Z., J. Xu, L. Xiao, J. Chen, Z.A. Tan, J. Yao and S. Dai, 2016. Efficient planar perovskite solar cells prepared via a low-pressure vapor-assisted solution process with fullerene/TiO2 as an electron collection bilayer. RSC Adv., 6: 78585-78594.
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  2. Yu, L., Q. Li, Z. Shi, H. Liu and Y. Wang et al., 2016. Optimization of the energy level alignment between the photoactive layer and the cathode contact utilizing solution-processed hafnium acetylacetonate as buffer layer for efficient polymer solar cells. ACS Applied Mater. Interfaces, 8: 432-441.
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  3. Wang, Z., T. Cheng, F. Wang, S. Dai and Z.A. Tan, 2016. Morphology engineering for high-performance and multicolored perovskite light-emitting diodes with simple device structures. Small, 12: 4412-4420.
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  4. Wang, F., B. Zhang, Q. Li, Z. Shi and L. Yu et al., 2016. Management of the light distribution within the photoactive layer for high performance conventional and inverted polymer solar cells. J. Mater. Chem. A, 4: 1915-1922.
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  5. Li, C., Q. Guo, W. Qiao, Q. Chen and S. Ma et al., 2016. Efficient lead acetate sourced planar heterojunction perovskite solar cells with enhanced substrate coverage via one-step spin-coating. Org. Electron., 33: 194-200.
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  6. Guo, Q., C. Li, W. Qiao, S. Ma and F. Wang et al., 2016. The growth of a CH3NH3PbI3 thin film using simplified close space sublimation for efficient and large dimensional perovskite solar cells. Energy Environ. Sci., 9: 1486-1494.
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  7. Bai, Y., L. Yan, J. Wang, Z. Yin, N. Chen, F. Wang and Z.A. Tan, 2016. Tailoring film agglomeration for preparation of silver nanoparticles with controlled morphology. Mater. Des., 103: 315-320.
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  8. Yu, L., C. Li, Q. Li, F. Wang and J. Lin et al., 2015. Performance improvement of conventional and inverted polymer solar cells with hydrophobic fluoropolymer as nonvolatile processing additive. Org. Electron., 23: 99-104.
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  9. Xiao, B., G. Ding, Z.A. Tan and E. Zhou, 2015. A comparison of n-type copolymers based on cyclopentadithiophene and naphthalene diimide/perylene diimides for all-polymer solar cell applications. Polym. Chem., 6: 7594-7602.
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  10. Wang, F., Z.A. Tan and Y. Li, 2015. Solution-processable metal oxides/chelates as electrode buffer layers for efficient and stable polymer solar cells. Energy Environ. Sci., 8: 1059-1091.
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  11. Wang, F., Z. Tan, S. Dai and Y. Li, 2015. Recent advances in planar heterojunction organic-inorganic hybrid perovskite solar cells. Acta Physica Sinica, Vol. 64, No. 3. 10.7498/aps.64.038401.
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  12. Liu, Y., C. Zhang, R. Wang, B. Zhang, Z. Tan, X. Wang and M. Xiao, 2015. Large optical nonlinearity induced by singlet fission in pentacene films. Angewandte Chemie, 127: 6320-6324.
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  13. Li, C., F. Wang, J. Xu, J. Yao and B. Zhang et al., 2015. Efficient perovskite/fullerene planar heterojunction solar cells with enhanced charge extraction and suppressed charge recombination. Nanoscale, 7: 9771-9778.
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  14. Hou, X., Q. Li, T. Cheng, L. Yu and F. Wang et al., 2015. Improvement of the power conversion efficiency and long term stability of polymer solar cells by incorporation of amphiphilic Nafion doped PEDOT-PSS as a hole extraction layer. J. Mater. Chem. A, 3: 18727-18734.
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  15. Zhang, B., C. Zhang, R. Wang, Z. Tan and Y. Liu et al., 2014. Nonlinear density dependence of singlet fission rate in tetracene films. J. Phys. Chem. Lett., 5: 3462-3467.
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  16. Wang, F., Q. Xu, Z.A. Tan, L. Li and S. Li et al., 2014. Efficient polymer solar cells with a solution-processed and thermal annealing-free RuO2 anode buffer layer. J. Mater. Chem. A, 2: 1318-1324.
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  17. Wang, F., G. Sun, C. Li, J. Liu and S. Hu et al., 2014. Finding the lost open-circuit voltage in polymer solar cells by UV-ozone treatment of the nickel acetate anode buffer layer. ACS Applied Mater. Interfaces, 6: 9458-9465.
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  18. Tu, X., F. Wang, C. Li, Z.A. Tan and Y. Li, 2014. Solution-processed and low-temperature annealed CrOx as anode buffer layer for efficient polymer solar cells. J. Phys. Chem. C, 118: 9309-9317.
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  19. Tan, Z.A., S. Li, F. Wang, D. Qian, J. Lin, J. Hou and Y. Li, 2014. High performance polymer solar cells with as-prepared zirconium acetylacetonate film as cathode buffer layer. Scient. Rep., Vol. 4. 10.1038/srep04691.
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  20. Tan, Z.A., L. Li, F. Wang, Q. Xu and S. Li et al., 2014. Solution-processed rhenium oxide: A versatile anode buffer layer for high performance polymer solar cells with enhanced light harvest. Adv. Energy Mater., Vol. 4, No. 1. 10.1002/aenm.201300884.
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  21. Tan, Z.A., L. Li, C. Li, L. Yan and F. Wang et al., 2014. Trapping light with a nanostructured CeOx/Al back electrode for high-performance polymer solar cells. Adv. Mater. Interfaces, Vol. 1, No. 8. 10.1002/admi.201400197.
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  22. Meng, X., G. Zhao, Q. Xu, Z.A. Tan and Z. Zhang et al., 2014. Effects of fullerene bisadduct regioisomers on photovoltaic performance. Adv. Funct. Mater., 24: 158-163.
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  23. Liu, X., S. Li, J. Li, J. Wang and Z.A. Tan et al., 2014. Synthesis, characterization and photovoltaic properties of benzo[1,2-b:4,5-b′]dithiophene-bridged molecules. RSC Adv., 4: 63260-63267.
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  24. He, S., S. Li, H. Zheng, J. Lin, S. Hu, J. Liu and Y. Li, 2014. Solution-processed nickel compound as hole collection layer for efficient polymer solar cells. J. Phys. D: Applied Phys., Vol. 47, No. 50. 10.1088/0022-3727/47/50/505101.
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  25. Zhang, W., Z.A. Tan, D. Qian, Q. Xu and L. Li et al., 2013. Using water-soluble nickel acetate as hole collection layer for stable polymer solar cells. J. Applied Polym. Sci., 128: 684-690.
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  26. Xu, Q., F. Wang, Z.A. Tan, L. Li and S. Li et al., 2013. High-performance polymer solar cells with solution-processed and environmentally friendly CuOx anode buffer layer. ACS Applied Mater. Interfaces, 5: 10658-10664.
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  27. Xu, Q., F. Wang, D. Qian, Z.A. Tan and L. Li et al., 2013. Construction of planar and bulk integrated heterojunction polymer solar cells using cross-linkable DA copolymer. ACS Applied Mater. Interfaces, 5: 6591-6597.
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  28. Wang, F., L. Li, Q. Xu, D. Qian and S. Li, 2013. Improved performance of polymer solar cells based on P3HT and ICBA using alcohol soluble titanium chelate as electron collection layer. Org. Electron., 14: 845-851.
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  29. Tang, A., L. Li, Z. Lu, J. Huang and H. Jia et al., 2013. Significant improvement of photovoltaic performance by embedding thiophene in solution-processed star-shaped TPA-DPP backbone. J. Mater. Chem. A, 1: 5747-5757.
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  30. Tan, Z.A., D. Qian, W. Zhang, L. Li and Y. Ding et al., 2013. Efficient and stable polymer solar cells with solution-processed molybdenum oxide interfacial layer. J. Mater. Chem. A, 1: 657-664.
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  31. Qian, D., W. Ma, Z. Li, X. Guo and S. Zhang et al., 2013. Molecular design toward efficient polymer solar cells with high polymer content. J. Am. Chem. Soc., 135: 8464-8467.
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  32. Qian, D., Q. Xu, X. Hou, F. Wang, J. Hou and Z.A. Tan, 2013. Stabilization of the film morphology in polymer: Fullerene heterojunction solar cells with photocrosslinkable bromine-functionalized low-bandgap copolymers. J. Polym. Sci. Part A: Polym. Chem., 51: 3123-3131.
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  33. Lv, M., S. Li, J.J. Jasieniak, J. Hou and J. Zhu et al., 2013. A hyperbranched conjugated polymer as the cathode interlayer for high-performance polymer solar cells. Adv. Mater., 25: 6889-6894.
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  34. Li, S., M. Lei, M. Lv, S.E. Watkins and Z.A. Tan et al., 2013. [6,6]-phenyl-C61-butyric acid dimethylamino ester as a cathode buffer layer for high-performance polymer solar cells. Adv. Energy Mater., 3: 1569-1574.
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  35. He, S., S. Li, F. Wang, A.Y. Wang and J. Lin, 2013. Efficient quantum dot light-emitting diodes with solution-processable molybdenum oxide as the anode buffer layer. Nanotechnology, Vol. 24, No. 17. 10.1088/0957-4484/24/17/175201.
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  36. Zhang, W., Z.A. Tan, D. Qian, L. Li and Q. Xu et al., 2012. ITO electrode/photoactive layer interface engineering for efficient inverted polymer solar cells based on P3HT and PCBM using a solution-processed titanium chelate. J. Phys. D: Applied Phys., Vol. 45, No. 28. 10.1088/0022-3727/45/28/285102.
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  37. Wang, F., Q. Xu, D. Qian, Y. Ding, L. Li, S. Li and Y. Li, 2012. Alcohol soluble titanium(IV) oxide bis(2,4-pentanedionate) as electron collection layer for efficient inverted polymer solar cells. Org. Electron., 13: 2429-2435.
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  38. Tang, R., W. Zhang, D. Qian and H. Zheng, 2012. Synthesis, characterization and electroluminescent properties of pyridinylene vinylene-modified phenylene vinylene copolymers. J. Electron. Mater., 41: 2447-2452.
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  39. Tan, Z.A., W. Zhang, Z. Zhang, D. Qian, Y. Huang, J. Hou and Y. Li, 2012. High-performance inverted polymer solar cells with solution-processed titanium chelate as electron-collecting layer on ITO electrode. Adv. Mater., 24: 1476-1481.
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  40. Tan, Z.A., W. Zhang, D. Qian, C. Cui and Q. Xu et al., 2012. Solution-processed nickel acetate as hole collection layer for polymer solar cells. Phys. Chem. Chem. Phys., 14: 14217-14223.
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  41. Tan, Z.A., W. Zhang, C. Cui, Y. Ding and D. Qian et al., 2012. Solution-processed vanadium oxide as a hole collection layer on an ITO electrode for high-performance polymer solar cells. Phys. Chem. Chem. Phys., 14: 14589-14595.
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  42. Tan, Z.A., L. Li, C. Cui, Y. Ding and Q. Xu et al., 2012. Solution-processed tungsten oxide as an effective anode buffer layer for high-performance polymer solar cells. J. Phys. Chem. C, 116: 18626-18632.
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  43. Qian, D., L. Ye, M. Zhang, Y. Liang and L. Li et al., 2012. Design, application and morphology study of a new photovoltaic polymer with strong aggregation in solution state. Macromolecules, 45: 9611-9617.
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  44. Meng, X., W. Zhang, Z.A. Tan, Y. Li and Y. Ma et al., 2012. Highly efficient and thermally stable polymer solar cells with dihydronaphthyl-based [70]fullerene bisadduct derivative as the acceptor. Adv. Funct. Mater., 22: 2187-2193.
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  45. Meng, X., W. Zhang, Z.A. Tan, C. Du and C. Li et al., 2012. Dihydronaphthyl-based [60]fullerene bisadducts for efficient and stable polymer solar cells. Chem. Commun., 48: 425-427.
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  46. Meng, X., Q. Xu, W. Zhang, Z.A. Tan and Y. Li et al., 2012. Effects of alkoxy chain length in alkoxy-substituted dihydronaphthyl-based [60]fullerene bisadduct acceptors on their photovoltaic properties. ACS Applied Mater. Interfaces, 4: 5966-5973.
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  47. Huang, J., H. Jia, L. Li, Z. Lu and W. Zhang et al., 2012. Fine-tuning device performances of small molecule solar cells via the more polarized DPP-attached donor units. Phys. Chem. Chem. Phys., 14: 14238-14242.
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  48. Chen, B., H. Zhong, W. Zhang, Z.A. Tan and Y. Li et al., 2012. Highly emissive and color-tunable CuInS2-based colloidal semiconductor nanocrystals: Off-stoichiometry effects and improved electroluminescence performance. Adv. Funct. Mater., 22: 2081-2088.
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  49. Tan, Z., Y. Zhang, C. Xie, H. Su and J. Liu et al., 2011. Near-band-edge electroluminescence from heavy-metal-free colloidal quantum dots. Adv. Mater., 23: 3553-3558.
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  50. Tan, Z., W. Zhang, D. Qian, H. Zheng and S. Xiao et al., 2011. Comparative study of the optical, electrochemical, electrolumiscent and photovoltaic properties of dendritic pendants modified poly(p-phenylene vinylene)s. Polym. Adv. Technol., 22: 2503-2508.
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  51. He, Y., J. Hou, Z.A. Tan and Y. Li, 2010. Synthesis and photovoltaic properties of polythiophene derivatives with side chains containing C60 end group. J. Applied Polym. Sci., 115: 532-539.
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  52. Zhang, C., J. Xu, T. Zhu, F. Zhang and Z. Tan et al., 2009. Quantum efficiency of stimulated emission in colloidal semiconductor nanocrystal quantum dots. Phys. Rev. B, Vol. 80, No. 3. 10.1103/PhysRevB.80.035333.
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  53. Zhan, X., Z.A. Tan, E. Zhou, Y. Li and R. Misra et al., 2009. Copolymers of perylene diimide with dithienothiophene and dithienopyrrole as electron-transport materials for all-polymer solar cells and field-effect transistors. J. Mater. Chem., 19: 5794-5803.
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  54. Tan, Z., T. Zhu, M. Thein, S. Gao and A. Cheng et al., 2009. Integration of planar and bulk heterojunctions in polymer/nanocrystal hybrid photovoltaic cells. Applied Phys. Lett., Vol. 95, No. 6. 10.1063/1.3189083.
    CrossRef  |  Direct Link  |  
  55. Tan, Z., J. Xu, C. Zhang, T. Zhu and F. Zhang et al., 2009. Colloidal nanocrystal-based light-emitting diodes fabricated on plastic toward flexible quantum dot optoelectronics. J. Applied Phys., Vol. 105, No. 3. 10.1063/1.3074335.
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  56. Zou, Y., Z.A. Tan, L. Huo and Y. Li, 2008. A phenylenevinylene-thiophene-phenyleneethynylene copolymer: Synthesis, characterization and photovoltaic properties. Polym. Adv. Technol., 19: 865-871.
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  57. Zhu, T., A. Berger, Z. Tan, D. Cui, J. Xu, P. Khanchaitit and Q. Wang, 2008. Composition-limited spectral response of hybrid photovoltaic cells containing infrared PbSe nanocrystals. J. Applied Phys., Vol. 104, No. 4. 10.1063/1.2969713.
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  58. Tan, Z.A., R. Tang, E. Zhou, Y. He, C. Yang, F. Xi and Y. Li, 2008. Electroluminescence and photovoltaic properties of poly(p-phenylene vinylene) derivatives with dendritic pendants. J. Applied Polym. Sci., 107: 514-521.
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  59. Tan, Z.A., E. Zhou, X. Zhan, X. Wang, Y. Li, S. Barlow and S.R. Marder, 2008. Efficient all-polymer solar cells based on blend of tris(thienylenevinylene)-substituted polythiophene and poly[perylene diimide-alt-bis(dithienothiophene)]. Applied Phys. Lett., Vol. 93, No. 7. 10.1063/1.2975160.
    CrossRef  |  Direct Link  |  
  60. Tan, Z., B. Hedrick, F. Zhang, T. Zhu and J. Xu et al., 2008. Stable binary complementary white light-emitting diodes based on quantum-dot/polymer-bilayer structures. IEEE Photon. Technol. Lett., 20: 1998-2000.
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  61. Huo, L., Z.A. Tan, X. Wang, Y. Zhou, M. Han and Y. Li, 2008. Novel two-dimensional donor-acceptor conjugated polymers containing quinoxaline units: Synthesis, characterization and photovoltaic properties. J. Polym. Sci. Part A: Polym. Chem., 46: 4038-4049.
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  62. Zhou, Y., Q. Sun, Z.A. Tan, H. Zhong, C. Yang and Y. Li, 2007. Double-layer structured WPLEDs based on three primary RGB luminescent polymers: Toward high luminous efficiency, color purity and stability. J. Phys. Chem. C, 111: 6862-6867.
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  63. Zhou, E., Z.A. Tan, Y. Yang, L. Huo, Y. Zou, C. Yang and Y. Li, 2007. Synthesis, hole mobility and photovoltaic properties of cross-linked polythiophenes with vinylene-terthiophene-vinylene as conjugated bridge. Macromolecules, 40: 1831-1837.
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  64. Zhou, E., Z.A. Tan, Y. He, C. Yang and Y. Li, 2007. Synthesis, hole mobility and photovoltaic properties of two alternating poly[3-(hex-1-enyl)thiophene-co-thiophene]s. J. Polym. Sci. Part A: Polym. Chem., 45: 629-638.
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  65. Zhou, E., Y. Yang, Y. He, C. Yang and Y. Li, 2007. Synthesis, characterization and photovoltaic properties of thiophene copolymers containing conjugated side-chain. Eur. Polym. J., 43: 855-861.
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  66. Zhan, X., Z.A. Tan, B. Domercq, Z. An and X. Zhang et al., 2007. A high-mobility electron-transport polymer with broad absorption and its use in field-effect transistors and all-polymer solar cells. J. Am. Chem. Soc., 129: 7246-7247.
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  67. Yang, C., B. Fan, Q. Sun, Y. Li and X.H. Zhou et al., 2007. An electrogenerated chemical-oxidation-driving nonvolatile plastic memory device with the conjugated polymer/carbon nanotube blend. Electrochem. Solid-State Lett., 10: P19-P22.
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  68. Xia, A., Z. Yuan, S. Tan, Y. Zou, Z. Tan, Y. Yang and Y. Li, 2007. Synthesis and optical properties of fluorene and p-phenylenevinylene copolymers containing non-conjugated spacer. Eur. Polym. J., 43: 1394-1401.
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  69. Tan, Z.A., R. Tang, Q. Sun, C. Yang, F. Xi and Y. Li, 2007. White polymer light-emitting diodes based on poly(2-(4′-(diphenylamino)phenylenevinyl)-1,4-phenylene-alt-9,9-n-dihexylfluorene-2,7-diyl) doped with a poly(p-phenylene vinylene) derivative. Thin Solid Films, 516: 47-51.
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  70. Tan, Z.A., R. Tang, F. Xi and Y. Li, 2007. Synthesis, characterization and electroluminescence of new conjugated PPV derivatives bearing triphenylamine side-chain through a vinylene bridge. Polym. Adv. Technol., 18: 963-970.
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  71. Tan, Z.A., J. Hou, Y. He, E. Zhou, C. Yang and Y. Li, 2007. Synthesis and photovoltaic properties of a donor-acceptor double-cable polythiophene with high content of C60 pendant. Macromolecules, 40: 1868-1873.
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  72. Tan, Z.A., C. Yang, E. Zhou, X. Wang and Y. Li, 2007. Performance improvement of polymer solar cells by using a solution processible titanium chelate as cathode buffer layer. Applied Phys. Lett., Vol. 91, No. 2. 10.1063/1.2757125.
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  73. Tan, Z., F. Zhang, T. Zhu, J. Xu and A.Y. Wang et al., 2007. Bright and color-saturated emission from blue light-emitting diodes based on solution-processed colloidal nanocrystal quantum dots. Nano Lett., 7: 3803-3807.
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  74. Huo, L., Z.A. Tan, Y. Zhou, E. Zhou, M. Han and Y. Li, 2007. Poly(quinoxaline vinylene) with conjugated phenylenevinylene side chain: A potential polymer acceptor with broad absorption band. Macromol. Chem. Phys., 208: 1294-1300.
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  75. Huo, L., X. Wang, M. Han and Y. Li, 2007. Synthesis, optical and electroluminescent properties of an alternating copolymer of triphenylamine and fumaronitrile. Synth. Met., 157: 690-695.
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  76. Zhou, E., Z.A. Tan, L. Huo, Y. He, C. Yang and Y. Li, 2006. Effect of branched conjugation structure on the optical, electrochemical, hole mobility and photovoltaic properties of polythiophenes. J. Phys. Chem. B, 110: 26062-26067.
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  77. Zhou, E., Z.A. Tan, C. Yang and Y. Li, 2006. Linking polythiophene chains through conjugated bridges: A way to improve charge transport in polymer solar cells. Macromol. Rapid Commun., 27: 793-798.
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  78. Zhou, E., C. He, Z.A. Tan, C. Yang and Y. Li, 2006. Effect of side-chain end groups on the optical, electrochemical and photovoltaic properties of side-chain conjugated polythiophenes. J. Polym. Sci. Part A: Polym. Chem., 44: 4916-4922.
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  79. Yang, C., Y. Li, J. Hou, C. He and Z.A. Tan et al., 2006. Thinner-film plastic photovoltaic cells based on different C60 derivatives. Polym. Adv. Technol., 17: 500-505.
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  80. Tang, R., Z.A. Tan, Y. Li and F. Xi, 2006. Synthesis of new conjugated polyfluorene derivatives bearing triphenylamine moiety through a vinylene bridge and their stable blue electroluminescence. Chem. Mater., 18: 1053-1061.
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  81. Sun, Q.J., B.H. Fan, Z.A. Tan, C.H. Yang, Y.F. Li and Y. Yang, 2006. White light from polymer light-emitting diodes: Utilization of fluorenone defects and exciplex. Applied Phys. Lett., Vol. 88, No. 16. 10.1063/1.2197318.
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  82. Hou, J., Z.A. Tan, Y. Yan, Y. He, C. Yang and Y. Li, 2006. Synthesis and photovoltaic properties of two-dimensional conjugated polythiophenes with bi(thienylenevinylene) side chains. J. Am. Chem. Soc., 128: 4911-4916.
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  83. Hou, J., Z.A. Tan, Y. He, C. Yang and Y. Li, 2006. Branched poly(thienylene vinylene)s with absorption spectra covering the whole visible region. Macromolecules, 39: 4657-4662.
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  84. Tang, R., Z.A. Tan, C. Cheng, Y. Li and F. Xi, 2005. Synthesis, electroluminescence and photovoltaic properties of dendronized poly(p-phenylene vinylene) derivatives. Polymer, 46: 5341-5350.
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  85. Zheng, H., Z.A. Tan, Y.R. Zhan and J. Huang, 2003. Morphology and properties of soy protein plastics modified with chitin. J. Applied Polym. Sci., 90: 3676-3682.
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