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基于AAO纳米光栅的薄膜硅太阳能电池表面减反结构设计与仿真

Design and Simulation of Anodic Aluminum Oxide Nanograting Anti-reflection Structure for Thin Film Silicon Solar Cells
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摘要 提出了一种新型的表面带有阳极氧化铝(AAO)纳米光栅的薄膜硅太阳能电池表面减反结构。理论分析设计了AAO纳米光栅结构参数。用Tracepro光学软件研究了不同占空比和光栅常数对薄膜硅光吸收的影响,得到了最佳结构参数。在此基础上,运用FDTD软件进一步模拟了带有最佳AAO结构尺寸的太阳能电池吸收谱线。仿真结果表明在光栅常数为440 nm,光栅高度为75 nm,占空比为0.5结构尺寸下,AAO具有最强的加强光吸收的作用。 In this paper, a new surface anti-reflection film with anodic aluminum oxide (AAO) nanograting was proposed for thin film silicon solar cells. Then we analyzed and designed the structure parameters in theory. By using the software of Tracepro, we explored the influence of AAO's duty circle and grating constant to light absorption. Actually, the best structure parameters were got. We also use FDTD software to get the absorption spectrum in optimized AAO size. The result showed that when the aperture is 440 nm, the AAO height is 75 nm and the duty ratio is 0.5, the enhancement is most obvious.
作者 秦飞飞 张海明 王彩霞 王旭 杨金梅
机构地区 天津工业大学理学院
出处 《人工晶体学报》 EI CAS CSCD 北大核心 2014年第6期1488-1492,共5页 Journal of Synthetic Crystals
基金 国家自然科学基金(61274064)
关键词 太阳能电池 AAO 减反结构 TRACEPRO FDTD solar cell AAO anti-reflection structure tracepro FDTD
分类号 O432 [机械工程—光学工程]
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参考文献15

  • 1Hegedus, Steven S. Improving Performance of Superstrate p-i-n a-Si Solar Cells by Optimization of nlTCO/metal Back Contacts [A ]. IEEE Electron Devices Soc [C ] , Anaheim ,1997 : 603 '{)06.
  • 2Zeng L, Yi Y. Demonstration of Enhanced Absorption in Thin Film Si Solar Cells with Textured Photonic Crystal Back Reflector [J] . Applied Physics Leiters ,2008 ,93( 22) : 221105-221108.
  • 3Wang J F, Hu J J, Sun X C et al. Cavity-enhanced Multispectral Photodetector Using Phase-tuned Propagation: Theory and Design [J] . Optics Leiters ,2010 ,35(5) : 742-744.
  • 4Fang J, Qi Y H, Ren W C, et aI. Enhanced Performance for Solar Cells With Moth-eye Structure Fabricated by UV Nanoimprint Lithography [J]. Microelectronic Engineering ,2013 ,103: 126-130.
  • 5Bermel P, Luo C Y, Zeng L R. et aI. Improving Thin-Flm Crystalline Silicon Solar Cell Efficiencies with Photonic Crystals[J]. Optics Express, 2007,15(25) : 16986-17000.
  • 6Atwater H, Polman A. Plasmonics for Improved Photovoltaic Devices[J]. Nature Materials,2010,9:205-213.
  • 7Wang Q H, Kishimoto S, Tanaka Y, et al. Microlsubmicro Grating Fabrication on Metals for Deformation Measurement Based on Ultraviolet Nanoimprint Lithography [J]. Optics and Lasers in Engineering. 2013 ,51 (7) :944-948.
  • 8Je-Hong C, Han-Byeol J, Hak-Jong C, et al. Fabrication of Ti02 Nano-to-microscale Structures Using UV Nanoimprin Lithography [J] . Nanotechnology. 2013 ,24( 19) : 195301-195308.
  • 9Masuda H, Fukuda K. Ordered Metal Nanohole Arrays Made by a Two-Step Replication of Honeycomb Structures of Anodic Alumina[J]. Science, 1995,268(5216) :1466-1468.
  • 10Sheng X, Liu J F, Michel J, et al. Low-cost Deterministic Quasi-periodic Photonic Structures for Light Trapping in Thin Film Silicon Solar Cells [J] . IEEE ,2009,7 (12) :2395-2398.

二级参考文献37

  • 1常中坤,郁可,张永胜,李立君,欧阳世翕,张清杰,王青艳,朱自强.ZnO纳米棒的图形化生长及其场发射特性[J].Journal of Semiconductors,2006,27(z1):84-86. 被引量:1
  • 2Bernhard C G, Boethius J, Gemne G, et al. Eye ultrastructure, colour reception and behaviour[J]. Nature, 1970, 226 (5248) : 865-866.
  • 3Wang Xudi, Liao Yanlin, Liu Bin. Free-standing SU-8 subwavelength gratings fabricated by UV curingimprint[ J]. Microelectronic Engineering, 2008, 85(5-6): 910-913.
  • 4Seh-Won Ahn, Ki-Dong Lee. Fabrication of subwave-length aluminmn wire grating using nanoimprint lithography and reactive ion etching [ J ]. Microelectronic Engineering, 2005, 78-79: 314-318.
  • 5Grarm E B, Moharam M G. Hybrid two-dimensional subwavelength surface-relief grating-mesh structures [ J ]. Appl Opt, 1996, 35(5): 795-800.
  • 6Chien F C, Lin C Y, Yih J N, et al. Coupled waveguide-surface plasmon resonance biosensor with subwavelength grating [J]. Biosensors and Bioelectronics, 2007, 22( 11): 2737- 2742.
  • 7Gombert A, Blasi B, Buhler C, et al. Some application cases and related manufacturing techniques for optically functional microstructures on large areas[M]. Opt Eng, 2004, 2525.
  • 8Raguin D H, Michael M G. Antireflection structured surfaces for the infrared spectral region[J]. Appl Opt, 1993, 32(7) : 1154-1167.
  • 9Grann E B, Moharam M G, Pommet D A. Artificial uniaxial and biaxial dielectrics with use of two-dimensional subwavelength binary gratings[J]. J Opt Soc Am, 1994, 11(10): 2695-2703.
  • 10Schulz U. Review of modem techniques to generate antireflective properties on thermoplastic polymers[ J]. Appl Opt, 2006, 45(7) : 1608-1618.

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人工晶体学报
2014年 第6期

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