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电致变色技术研究进展和应用
Recent Process and Application of Electrochromism

查看参考文献107篇

文摘 经过多年的研究和发展,电致变色技术已被应用于建筑窗、汽车防眩后视镜、飞机舷窗等领域。本文概述了电致变色器件的结构、工作原理、材料分类、以及特性要求,阐述了电致变色薄膜的制备方法和实现应用的技术要求,并总结分析了国内外发展状况和最新进展。将电致变色应用在能源领域达到节约能耗的效果,极具社会意义和商业价值,是其发展过程的里程碑。目前,探索时间成本和经济效益双赢的技术路线和工艺流程,拓展应用领域(与其他技术相结合)并开发出相关的实用性产品将为电致变色技术重要的发展趋势。具有工业前景的湿化学方法有降低成本,提高效率的优势,将成为实现该项技术普及化的研究热点,另外,电解质层材料的研发和制备也会成为研究发展中的核心技术。
其他语种文摘 Based on the research and development of electrochromism, its commercial applications have been realized in the areas of building windows, car rear-view mirrors and aircraft windows. In this paper, constructions, material category, working principles and characteristic requirements of electrochromic device were to described in details. Preparing methods of electrochromic films and technologies requirements for practicality were listed. The status of electrochromic technologies on commercialization and latest research were also summarized and analyzed. Electrochromism has great commercial potential and important social value for green and energy saving, which is the milestone in its developing process. At present, the trend of electrochromic technology is focused on seeking the technical route and process of saving time and cost, exploiting its application areas by combining other technologies and developing practical products. Wet chemical methods with industrial prospect have advantages of lowering cost and increasing efficiency, and can be a research hotspot for popularizing electrochromic technology. Moreover, the development and preparation of electrolyte layer will be the core technology in the future.
来源 航空材料学报 ,2016,36(3):108-123 【核心库】
DOI 10.11868/j.issn.1005-5053.2016.3.012
关键词 电致变色 ; 智能窗 ; 节能环保 ; 柔性器件 ; 自供能电致变色器件
地址

北京航空材料研究院透明件研究所, 北京市先进运载系统结构透明件工程技术研究中心, 北京, 100095

语种 中文
文献类型 研究性论文
ISSN 1005-5053
学科 物理学
文献收藏号 CSCD:5718086

参考文献 共 107 共6页

1.  Granqvist C G. Electrochromism and smart window design. Solid State Ionics,1992,53:479-489 CSCD被引 9    
2.  Azens A. Electrochromic materials and their applications in foil-based devices. Advanced Optical Devices, Technologies, and Medical Applications,2002,5123:185-195 CSCD被引 1    
3.  Deb S K. A novel electrophotographic system. Applied Optics,1969,3:192-195 CSCD被引 39    
4.  Palatnik L S. An X-ray diffraction study of the mechanism of reversible electrochemical dielectric semiconductor transformations in Nb_2O_5. Doklady Akademii. Nauk SSSR,1974,215:1182-1185 CSCD被引 1    
5.  Baloukas B. Active metameric security devices using an electrochromic material. Applied Optics,2011,50:C41-C49 CSCD被引 1    
6.  Svensson J S E M. Electrochromic coatings for " smart windows". Solar Energy Materials and Solar Cell,1985,12:391-402 CSCD被引 11    
7.  Svensson J S E M. Electrochromic tungsten-oxide films for energy-efficient windows. Solar Energy Materials and Solar Cell,1984,11:29-34 CSCD被引 6    
8.  Lampert C M. Electrochromic materials and devices for energy-efficient windows. Solar Energy Materials and Solar Cell,1984,11:1-27 CSCD被引 16    
9.  UNEP. Buildings and climate change: status, challenges and opportunities,2007 CSCD被引 1    
10.  Glicksman L R. Energy efficiency in the built environment. Physics Today,2008,61:35-40 CSCD被引 2    
11.  Richter B. How america can look within to achieve energy security and reduce global warming. Reviews of Modern Physics,2008,80:S1-S107 CSCD被引 2    
12.  Arsenault H. Effects of glazing colour type on perception of daylight quality, a-rousal, and switch-on patterns of elec-tric light in office rooms. Building and Environment,2012,56:223-231 CSCD被引 1    
13.  Lee E S. Monitored energy performance of electrochromic windows controlled for daylight and visual comfort. ASHRAE Transactions,2006,112:122-141 CSCD被引 2    
14.  Marks A M. Electrooptical characteristics of dipole suspensions. Appl Optics,1969,8:1397-1412 CSCD被引 1    
15.  Kahr B. Herapathite. Science,2009,324:1407-1407 CSCD被引 2    
16.  Vergaz R. Electrooptical analysis of PEDOT symmetrical electrochromic devices. Solar Energy Materials and Solar Cells,2008,92:107-111 CSCD被引 3    
17.  Gardiner D J. High-efficiency multistable switchable glazing using smectic A liquid crystals. Solar Energy Materials and Solar Cells,2009,93:301-306 CSCD被引 2    
18.  Lee E S. Daylighting control performance of a thin-film ceramic electrochromic window: Field study results. Energ Buildings,2006,38:30-44 CSCD被引 9    
19.  Nath P. Electrical and optical properties of In_2 O_3: Sn films prepared by activated reactive evaporation. Thin Solid Films,1980,72:463-468 CSCD被引 5    
20.  Koh S K. Material properties and growth control of undoped and Sn-doped In_2O_3 thin films prepared by using ion beam technologies. Thin Solid Films,2006,496:81-88 CSCD被引 1    
引证文献 8

1 付子怡 阳极电致变色材料的研究进展 航空材料学报,2019,39(6):46-62
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2 时俊磊 Ce~(3 +) 掺杂TiO_2薄膜材料的制备改性及电致变色研究 人工晶体学报,2018,47(5):924-928
CSCD被引 0 次

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