研究生: |
陳鈺聖 Yu-Sheng Chen |
---|---|
論文名稱: |
白金奈米粒子/奈米碳管混成材料在染料敏化太陽能電池對電極之研究 Facile Preparation of Platinum Nanoparticles/Carbon Nanotubes Nanohybrid Films for Counter Electrodes in Dye-Sensitized Solar Cells |
指導教授: |
邱智瑋
Chih-Wei Chiu |
口試委員: |
邱顯堂
Hsien-Tang Chiu 游進陽 Chin-Yang Yu |
學位類別: |
碩士 Master |
系所名稱: |
工程學院 - 材料科學與工程系 Department of Materials Science and Engineering |
論文出版年: | 2020 |
畢業學年度: | 108 |
語文別: | 中文 |
論文頁數: | 105 |
中文關鍵詞: | 染料敏化太陽能電池 、高分子型分散劑 、奈米碳管 、白金奈米粒子 |
外文關鍵詞: | dye-sensitized solar cells(DSSC), polymeric dispersants, carbon nanotubes(CNT), platinum nanoparticles(PtNPs) |
相關次數: | 點閱:366 下載:0 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
1. Gray, R. The biggest energy challenges facing humanity. 2017.
2. Mrsolar. What is the Photovoltaic Effect?. 2010.
3. SEPCO. Solar Power Advantages and Disadvantages. 2012.
4. UNEP. Renewables 2019 Global Status Report. 2019.
5. 沈曾民, 新型碳材料. 2006. 曉園出版社。
6. Y. N. Biglova, N. N. Sigaeva, R. F. Talipov and Y. B. Monakov, Review of Fullerene Organic Chemistry. Oxid. Commun., 2005. 4, 753-798.
7. S. Iijima, Helical Microtubules of Graphitic Carbon. Nat., 1991. 6348, 56-58.
8. M. D. Stoller, S. J. Park, Y. W. Zhu, J. H. An and R. S. Ruoff, Graphene-Based Ultracapacitors. Nano Lett., 2008. 10, 3498-3502.
9. K. S. Novoselov, A. K. Geim, S. V. Morozov, D. Jiang, Y. Zhang, S. V. Dubonos, I. V. Grigorieva and A. A. Firsov, Electric Field Effect in Atomically Thin Carbon Films. Sci., 2004. 5696, 666-669.
10. A. K. Geim and K. S. Novoselov, The Rise of Graphene. Nat. Mat., 2007. 3, 183-191.
11. K. S. Novoselov, V. I. Fal'ko, L. Colombo, P. R. Gellert, M. G. Schwab and K. Kim, A Roadmap for Graphene. Nat., 2012. 7419, 192-200.
12. S. Iijima, and T. Ichihashi, Single-Shell Carbon Nanotube of 1-nm Diameter. Nat., 1993. 6430, 603-605.
13. Q. Zhang, J. Q. Huang, W. Z. Qian, Y. Y. Zhang and F. Wei, The Road for Nanomaterials Industry: A Review of Carbon Nanotube Production, Post-Treatment, and Bulk Applications for Composites and Energy Storage. Small, 2013. 8, 1237-1265.
14. J. Prasek, J. Drbohlavova, J. Chomoucka, J. Hubalek, O. Jasek, V. Adam and R. Kizek, Methods for Carbon Nanotubes Synthesis—Review. J. Mater. Chem., 2011. 40, 15872-15884.
15. R.H. Baughman, A.A. Zakhidov and W.A. de Heer, Carbon Nanotubes - the Route Toward Applications. Sci., 2002. 5582, 787-792.
16. E. T. Thostenson, Z. F. Ren and T. W. Chou, Advances in the Science and Technology of Carbon Nanotubes and their Composites: A Review. Compos. Sci. Technol., 2001. 13, 1899-1912.
17. T. W. Ebbesen and P. M. Ajayan, Large-Scale Synthesis of Carbon Nanotubes. Nat., 1992. 6383, 220-222.
18. Z. F. Ren, Z. P. Huang, J. W. Xu, J. H. Wang, P. Bush, M. P. Siegal and P. N. Provencio, Synthesis of Large Srrays of Well-Aligned Carbon Nanotubes on Glass. Sci., 1998. 5391, 1105-1107.
19. H. W. Zhu, C. L. Xu, D. H. Wu, B. Q. Wei, R. Vajtai and P. M. Ajayan, Direct Synthesis of Long Single-Walled Carbon Nanotube Strands. Sci., 2002. 5569, 884-886.
20. C. W. Chiu, T. K. Huang, Y. C. Wang, B. G. Alamani and J. J. Lin, Intercalation Strategies in Clay/Polymer Hybrids. Prog. Polym. Sci., 2014. 3, 443-485.
21. S. D. Bergin, Z. Y. Sun, D. Rickard, P. V. Streich, J. P. Hamilton and J. N. Coleman, Multicomponent Solubility Parameters for Single-walled Carbon Nanotube-solvent Mixtures. Acs Nano, 2009. 8, 2340-2350.
22. G. Sun, Z. Liu and G. Chen, Dispersion of Pristine Multi-walled Carbon Nanotubes in Common Organic Solvents. Nano, 2010. 5, 103-109.
23. B. Oregan and M. Gratzel, A Low-cost, High-efficiency Solar-cell Based on Dye-Sensitized Colloidal TiO2 Films. Nat., 1991. 6346, 737-740.
24. T. Minami, Transparent Conducting Oxide Semiconductors for Transparent Electrodes. Semicond. Sci. Technol., 2005. 4, 35-44.
25. J. H. Noh, S. Lee, J. Y. Kim, J. K. Lee, H. S. Han, C. M. Cho, I. S. Cho, H. S. Jung and K. S. Hong, Functional Multilayered Transparent Conducting Oxide Thin Films for Photovoltaic Devices. J. Phys. Chem. C, 2009. 3, 1083-1087.
26. C. Sima, C. Grigoriu and S. Antohe, Comparison of the Dye-sensitized Solar Cells Performances Based on Transparent Conductive ITO and FTO. Thin Solid Films, 2010. 2, 595-597.
27. S. H. Lee, S. H. Han, H. S. Jung, H. Shin, J. Lee, J. H. Noh, S. Lee, I. S. Cho, J. K. Lee, J. Kim and H. Shin, Al-Doped ZnO Thin Film: A New Transparent Conducting Layer for ZnO Nanowire-based Dye-sensitized Solar Cells. J. Phys. Chem. C, 2010. 15, 7185-7189.
28. M. S. Ahmad, A. K. Pandey and N. A. Rahima, Advancements in the Development of TiO2 Photoanodes and its Fabrication Methods for Dye Sensitized Solar Cell (DSSC) Applications. A Review. Renew. Sust. Energ. Rev., 2017. 77, 89-108.
29. D. Reyes-Coronado, G. Rodriguez-Gattorno, M. E. Espinosa-Pesqueira, C. Cab, R. de Coss and G. Oskam, Phase-pure TiO2 Nanoparticles: Anatase, Brookite and Rutile. Nanotechnol., 2008. 145605, 10.
30. S. Ito, T. N. Murakami, P. Comte, P. Liska, C. Gratzel, M. K. Nazeeruddin and M. Gratzel, Fabrication of Thin Film Dye Sensitized Solar Cells with Solar to Electric Power Conversion Efficiency Over 10%. Thin Solid Films, 2008. 14, 4613-4619.
31. NREL. Reference Solar Spectral Irradiance: Air Mass 1.5. 2019.
32. S. Mozaffari, M. R. Nateghi and M. B. Zarandi, An Overview of the Challenges in the Commercialization of Dye Sensitized Solar Cells. Renew. Sust. Energ. Rev., 2017. 71, 675-686.
33. F. T. Kong, S. Y. Dai and K. J. Wang, Review of Recent Progress in Dye-Sensitized Solar Cells. Adv. Optoelectron., 2007. 75384, 13.
34. R. Kawano, H. Matsui, C. Matsuyama, A. Sato, Mabh. Susan, N. Tanabe and M. Watanabe, High Performance Dye-Sensitized Solar Cells using Ionic Liquids as their Electrolytes. J. Photochem. Photobiol. A, 2004. 1-3, 87-92.
35. P. Wang, S. M. Zakeeruddin, P. Comte, I. Exnar and M. Gratzel, Gelation of Ionic Liquid-based Electrolytes with Silica Nanoparticles for Quasi-solid-state Dye-sensitized Solar Cells. J. Am. Chem. Soc., 2003. 5, 1166-1167.
36. P. Wang, S. M. Zakeeruddin, I. Exnar and M. Gratzel, High Efficiency Dye-sensitized Nanocrystalline Solar Cells Based on Ionic Liquid Polymer Gel Electrolyte. Chem. Commun., 2002. 24, 2972-2973
37. S. A. Sapp, C. M. Elliott, C. C. Contado, S. Aramori and C. A. Bignozzi, Substituted Polypyridine Complexes of Cobalt(II/III) as Efficient Electron-transfer Mediators in Dye-Sensitized Solar Cells. J. Amer. Chem. Soc., 2002. 37, 11215-11222.
38. S. Sonmezoglu, C. Akyurek and S. Akin, High-efficiency Dye-sensitized Solar Cells using Ferrocene-based Electrolytes and Natural Photosensitizers. J. Phys. D, 2012. 42, 7.
39. J. N. Clifford, E. Palomares, M. K. Nazeeruddin, M. Gratzel and J. R. Durrant, Dye Dependent Regeneration Dynamics in Dye Sensitized Nanocrystalline Solar Cells: Evidence for the formation of a Ruthenium Bipyridyl Cation/iodide Intermediate. J. Phys. Chem. C, 2007. 17, 6561-6567.
40. L. J. Brennan, M. T. Byrne, M. Bari and Y. K. Gun'ko, Carbon Nanomaterials for Dye-sensitized Solar Cell Applications: A Bright Future. Adv. Energy Mater., 2011. 4, 472-485.
41. K. Sun, S. P. Zhang, P. C. Li, Y. J .Xia, X. Zhang, D. H. Du, F. H. Isikgor and J. Y. Ouyang, Review on Application of PEDOTs and PEDOT: PSS in Energy Conversion and Storage Devices. J. Mater. Sci. - Mater. Electron, 2015. 7, 4438-4462.
42. J. H. Wu, Z. Lan, J. M. Lin, M. L. Huang, Y. F. Huang, L. Q. Fan, G. G. Luo, Y. Lin, Y. M. Xie and Y. L. Wei, Counter Electrodes in Dye-sensitized Solar Cells. Chem. Soc. Rev., 2017. 19, 5975-6023.
43. M. Z. Iqbal and S. Khan, Progress in the Performance of Dye Sensitized Solar Cells by Incorporating Cost Effective Counter Electrodes. Sol. Energy, 2018. 160, 130-152.
44. G. Veerappan, K. Bojan and S. W. Rhee, Sub-micrometer-sized Graphite As a Conducting and Catalytic Counter Electrode for Dye-sensitized Solar Cells. ACS Appl. Mater. Interfaces, 2011. 3, 857-862.
45. T. N. Murakami, S. Ito, Q. Wang, M. K. Nazeeruddin, T. Bessho, I. Cesar, P. Liska, R. Humphry-Baker, P. Comte, P. Pechy and M. Gratzel, Highly Efficient Dye-sensitized Solar Cells Based on Carbon Black Counter Electrodes. J. Electrochem. Soc., 2006. 12, 2255-2261.
46. A. Drygala, L. A. Dobrzanski, M. Szindler, M. P. V. Prokopowicz, M. Pawlyta and K. Lukaszkowicz, Carbon Nanotubes Counter Electrode For Dye-sensitized Solar Cells Application. Arch. Metal. Mater., 2016. 2, 803-806.
47. P. Joshi, L. F. Zhang, Q. L. Chen, D. Galipeau, H. Fong and Q. Q. Qiao, Electrospun Carbon Nanofibers as Low-Cost Counter Electrode for Dye-sensitized Solar Cells. ACS Appl. Mater. Interfaces, 2010. 12, 3572-3577.
48. X. Wang, L. J. Zhi and K. Mullen, Transparent, Conductive Graphene Electrodes for Dye-sensitized Solar Cells. Nano Lett., 2008. 1, 323-327.
49. M. Kouhnavard, N. A. Ludin, B. V. Ghaffari, K. Sopian and S. Ikeda, Carbonaceous Materials and their Advances as a Counter Electrode in Dye-sensitized Solar Cells: Challenges and Prospects. ChemSusChem, 2015. 9, 1510-1533.
50. K. Suzuki, M. Yamaguchi, M. Kumagai and S. Yanagida, Application of Carbon Nanotubes to Counter Electrodes of Dye-sensitized Solar Cells. Chem. Lett., 2003. 1, 28-29.
51. W. J. Lee, E. Ramasamy, D. Y. Lee and J. S. Song, Efficient Dye-sensitized Cells with Catalytic Multiwall Carbon Nanotube Counter Electrodes. ACS Appl. Mater. Interfaces, 2009. 6, 1145-1149.
52. J. G. Nam, Y. J. Park, B. S. Kim and J. S. Lee, Enhancement of the Efficiency of Dye-sensitized Solar Cell by Utilizing Carbon Nanotube Counter Electrode. Scripta Mater., 2010. 3, 148-150.
53. M. H. Shao, Q. W. Chang, J. P. Dodelet and R. Chenitz, Recent Advances in Electrocatalysts for Oxygen Reduction Reaction. Chem. Rev., 2016. 6, 3594-3657.
54. S. Shakir, Y. Y. Foo, N. Rizan, H. Abd-ur-Rehman, K. Yunus, P. S. Moi and V. Periasamy, Electro-catalytic and Structural Studies of DNA Templated Gold wires on Platinum/ITO as Modified Counter Electrode in Dye Sensitized Solar Cells. J. Mater. Sci. - Mater. Electron., 2018. 6, 4602-4611.
55. A. Kaniyoor and S. Ramaprabhu, Gold Nanoparticle Decorated Multi-walled Carbon Nanotubes as Counter Electrode for Dye Sensitized Solar Cells. J. Nanosci. Nanotechnol, 2012. 11, 8323-8329.
56. H. Y. Kim, M. W. Lee, D. H. Song, H. J. Yoon and J. S. Suh, Plasmonic-enhanced Graphene Flake Counter Electrodes for Dye-Sensitized Solar Cells. J. Appl. Phys., 2017. 24, 7.
57. Q. W. Tang, J. L. Duan, Y. Y. Duan, B. L. He and L. M. Yu, Recent Advances in Alloy Counter Electrodes for Dye-sensitized Solar Cells. A Critical Review. Electrochim. Acta., 2015. 178, 886-899.
58. G. T. Yue, J. H. Wu, Y. M. Xiao, M. L. Huang, J. M. Lin, L. Q. Fan and Z. Lan, Platinum/graphene Hybrid Film as A Counter Electrode for Dye-sensitized Solar Cells. Electrochim. Acta., 2013. 92, 64-70.
59. P. J. Li, J. H. Wu, J. M. Lin, M. L. Huang, Y. F. Huang and Q. G. Li, High-performance and Low Platinum Loading Pt/Carbon Black Counter Electrode for Dye-sensitized Solar Cells. Sol. Energy, 2009. 6, 845-849.
60. K. C. Huang, Y. C. Wang, R. X. Dong, W. C. Tsai, K. W. Tsai, C. C. Wang, Y. H. Chen, R. Vittal, J. J. Lin and K. C. Ho, A High Performance Dye-sensitized Solar Cell with A Novel Nanocomposite Film of PtNP/MWCNT on the Counter Electrode. J. Mater. Chem., 2010. 20, 4067-4073.
61. M. X. Wu and T. L. Ma, Platinum-free Catalysts as Counter Electrodes in Dye-sensitized Solar Cells. ChemSusChem, 2012. 8, 1343-1357.
62. U. Ahmed, M. Alizadeh, N. Abd Rahim, S. Shahabuddin, M. S. Ahmed and A. K. Pandey, A Comprehensive Review on Counter Electrodes for Dye Sensitized Solar Cells: A Special Focus on Pt-TCO Free Counter Electrodes. Sol. Energy, 2018. 174, 1097-1125.
63. C. T. Liu, Y. C. Wang, R. X. Dong, C. C. Wang, K. C. Huang, R. Vittal, K. C. Ho and J. J. Lin, A Dual-functional Pt/CNT TCO-free Counter Electrode for Dye-sensitized Solar Cell. J. Mater. Chem., 2012. 48, 25311-25315.
64. M. Gratzel, Dye-sensitized Solar Cells. Photochem. Photobio., 2003. 4, 145-153.
65. I. Chung, B. Lee, J. Q. He, R. P. H. Chang and M. G. Kanatzidis, All-solid-state Dye-sensitized Solar Cells with High Efficiency. Nat., 2012. 7399, 486-494.
66. P. Wang, S. M. Zakeeruddin, J. E. Moser, M. K. Nazeeruddin, T. Sekiguchi, M. Gratzel, A Stable Quasi-solid-state Dye-sensitized Solar Cell with An Amphiphilic Ruthenium Sensitizer and Polymer Gel Electrolyte. Nat. Mater., 2003. 6, 402-407.