半透明钙钛矿电池性能的模拟任务书
2020-06-09 10:06
1. 毕业设计(论文)的内容和要求
有机-无机杂化钙钛矿太阳能电池于2009年首次被报道。
2012年8月后,该电池的研究取得了一系列的重大突破,效率很快从3.8%提升到22.1%。
国际学术界对此高度重视。
2. 参考文献
[1] Kojima A, Teshima K, Shirai Y, et al. Organometal Halide Perovskites as Visible-Light Sensitizers for Photovoltaic Cells[J]. J Am Chem Soc, 2009, 17(131): 6050-6051. [2] Im J H, Lee C R, Lee J W, et al. 6.5% efficient perovskite quantum-dot-sensitized solar cell[J]. Nanoscale, 2011, 3(10): 4088-4093. [3] Kim H S, Lee C R, Im J H, et al. Lead iodide perovskite sensitized all-solid-state submicron thin film mesoscopic solar cell with efficiency exceeding 9%[J]. Sci Rep, 2012, 2: 591. [4] Lee M M, Teuscher J, Miyasaka T, et al. Efficient hybrid solar cells based on meso-superstructured organometal halide perovskites[J]. Science, 2012, 338(6107): 643-647. [5] Burschka J, Pellet N, Moon S J, et al. Sequential deposition as a route to high-performance perovskite-sensitized solar cells[J]. Nature, 2013, 499(7458): 316-319. [6] Liu M, Johnston M B, Snaith H J. Efficient planar heterojunction perovskite solar cells by vapour deposition[J]. Nature, 2013, 501(7467): 395-398. [7] Liu D, Kelly T L. Perovskite solar cells with a planar heterojunction structure prepared using room-temperature solution processing techniques[J]. Nat Photonics, 2013, 8(2): 133-138. [8] Kitazawa N, Watanabe Y, Nakamura Y. Optical properties of MAPbX3 and their mixed-halide crystals[J]. J. Mat. Sci, 2002, 37(17):3585-3587. [9] Noh J H, Im S H, Heo J H, et al. Chemical management for colorful, efficient, and stable inorganic-organic hybrid nanostructured solar cells[J]. Nano Lett, 2013, 13(4): 1764-1769. [10] Xing G, Mathews N, Lim S S, et al. Low-temperature solution-processed wavelength-tunable perovskites for lasing[J]. Nat Mater, 2014, 13(5):476-480 [11] Tanaka K, Takahashi T, Ban T, et al. Comparative Study on the Excitons in Lead-Halide-Based Perovskite-Type Crystals MAPbBr3 MAPbI3[J]. Solid State Commun, 2003, 127(9):619 #8722; 623. [12] Kim H S, Im S H, Park N G. Organolead Halide Perovskite: New Horizons in Solar Cell Research[J]. J. Phys. Chem. C, 2014, 118(11): 5615#8211;5625. [13] Wehrenfennig C, Eperon G E, Johnston M B, et al. High Charge Carrier Mobilities and Lifetimes in Organolead Trihalide Perovskites[J]. Adv Mater, 2014, 26(10): 1584-1589. [14] Xing G, Mathews N, Sun S, et al. Long-range balanced electron- and hole-transport lengths in organic-inorganic MAPbI3[J]. Science, 2013, 342(6156): 344-347. [15] Stranks S D, Eperon G E, Grancini G, et al. Electron-hole diffusion lengths exceeding 1 micrometer in an organometal trihalide perovskite absorber[J]. Science, 2013, 342(6156): 341-344. [16] liang K N, mitzi D B, prikas M T. Synthesis and characterization of organic-inorganic perovskite thin films prepared using a versatile two-step dipping technique[J]. Chem. Mater, 1998, 10(1): 403#8211;411. [17] Chen Q, Zhou H, Hong Z, et al. Planar heterojunction perovskite solar cells via vapor-assisted solution process[J]. J Am Chem Soc, 2014, 136(2): 622-625. [18] Oregan B, Gratzel M. A low-cost, high-efficiency solar cell based on dye-sensitized colloidal TiO2 films[J]. Nature, 1991, 353(6346):737#8211;740. [19] Bi D, Moon S J, H#228;ggman L, et al. Using a two-step deposition technique to prepare perovskite (MAPbI3) for thin film solar cells based on ZrO2 and TiO2 mesostructures[J]. RSC Advances, 2013, 3(41): 18762-18766. [20] Ball J M, Lee M M, Hey A, et al. Low-temperature processed meso-superstructured to thin-film perovskite solar cells[J]. Energy Environmental Science, 2013, 6(6):1739-1743.
3. 毕业设计(论文)进程安排
2016.12.12-2017.1.2,文献调研,完成开题报告 1.3-1.13,完成英文翻译 3.14-4.21,深刻理解钙钛矿太阳能电池原理,学习和掌握AMPS-1D和TFCalc软件 4.22-5.5,进行模拟、初步分析结果和中期检查 5.6-5.26,进一步完善模拟结果,并分析全部数据 5.27-6.2,论文撰写 6.3-6.6,论文修改 6.7-6.14,准备PPT,答辩
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