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市場調查報告書
彈性電子產品用透明導電膜:2010年至2020年
Transparent Conductive Films for Flexible Electronics 2010-2020
| 出版商 |
IDTechEx Ltd. |
| 出版日期 |
2009年10月 |
商品編碼 |
102253 |
| 內容資訊 |
英文 97 PAGES Tables 8 Figures 34 |
| 價格 |
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彈性電子產品用透明導電膜:2010年至2020年 是由出版商IDTechEx Ltd.在2009年10月所出版的。
這份英文市場調查報告書包含97 PAGES Tables 8 Figures 34 價格從美金3995起跳。
透明導電膜市場主要仍停留在研究開發及少量商業設備應用的水準,2010年的規模預計為24萬美元,但未來可望快速發展應用於印刷電子產品等市場,於2020年達到33億9,000萬美元的規模。
本報告書內容包括:彈性電子產品用透明導電膜相關材料、加工動向、技術發展、未來10年的發展預測等。內容綱要摘記如下:
第1章 實施概要及結論
第2章 透明導電膜介紹
第3章 透明導電膜的應用及必要特性
- 電磁鍍膜及靜電塗裝
- 顯示器及照明
- LC顯示器
- EL燈具及顯示器
- 有機EL照明及顯示器
- 觸控式螢幕顯示器
- 太陽電池
- 安全
第4章 透明導電膜的主要標準
第5章 使用材料
- 鍍膜金屬氧化物
- ITO的課題:成本及可購得性
- 有機導電體
- 奈米碳管及石墨
第6章 透明導電膜製造
第7章 企業(35家)
第8章 2010年至2020年彈性電子產品用透明導電膜市場預測
- 有機電子產品及印刷無機電子產品的發展潛力
- 彈性電子產品的市場預測:2010年至2020年
- 透明導電膜市場規模
第9章 參考資料
附錄
Abstract
“By 2017 TCFs will become a billion dollar market for printed and
potentially printed electronics”
Description
This report focuses on the requirements and achievements to date on the topic
of flexible transparent conductors, where high transparency and high
conductivity are required. Worldwide research and design efforts are
presented, both from research institutes and companies that are developing the
necessary materials and processes. Several technical solutions available are
compared, and forecasts are given for the next 10 years.
Report Statistics
- Pages: 97
- Tables: 8
- Figures: 34
- Companies: 35
- Forecasts to: 2020
- Last update: Q4 2009
Table of Contents
1. EXECUTIVE SUMMARY AND CONCLUSIONS
2. INTRODUCTION TO TRANSPARENT CONDUCTING FILMS (TCF)
3. APPLICATIONS AND REQUIRED PROPERTIES OF TCFS
- 3.1. Electromagnetic shielding and Electrostatic coating
- 3.2. Displays & Lighting
- 3.2.1. LC Displays
- 3.2.2. EL Lamps and Displays
- 3.2.3. OLED Lighting and displays
- 3.2.4. Touch Screen Displays
- 3.3. Photovoltaics
- 3.3.1. Crystalline Silicon
- 3.3.2. Thin film and Organic PV
- 3.4. Security Applications
4. MAIN CRITERIA OF TCFS
- 4.1.2. Transparency
- 4.1.3. Conductivity
- 4.1.4. Flexibility
- 4.1.5. Cost
- 4.1.6. Other parameters
5. MATERIALS USED FOR TCFS
- 5.1.1. Doped oxide metals
- 5.1.2. ITO Challenges: Cost and availability
- 5.1.3. Organic Conductors
- 5.1.4. Carbon Nanotubes and Graphene
6. MANUFACTURING OF TCFS
- 6.1. TCOs
- 6.1.1. Vacuum processes
- 6.1.2. Wet processes
- 6.1.3. Patterning of TCO layers
- 6.1.4. Recent developments: Printable ITO
- 6.2. Organic Materials
- 6.3. CNT and Graphene
7. COMPANIES
- 7.1. Agfa Orgacon
- 7.2. Cambrios Technologies Corp.
- 7.3. Canatu Ltd.
- 7.4. Cheil Industries
- 7.5. Chisso Corp.
- 7.6. Dai Nippon Printing Co Ltd (DNP)
- 7.7. Dontech Inc.
- 7.8. Eikos - Production of Carbon Nanotube Invisicon Ink
- 7.9. Evaporated Coatings Inc.
- 7.10. Evonik
- 7.11. Fujifilm Ltd
- 7.12. Gunze Ltd
- 7.13. H.C. Starck Clevios
- 7.14. HelioSphera
- 7.15. Join Well Technology Company Ltd.
- 7.16. KPT Shanghai Keyan Phosphor Technology Co. Ltd.
- 7.17. LEE TAT INDUSTRIAL DEVELOPMENT LTD.
- 7.18. LG Chem
- 7.19. Mianyang Prochema Plastics Co., Ltd.
- 7.20. Mitsui & Co. (U.S.A.), Inc.
- 7.21. National Institute of Advanced Industrial Science and Technology
(AIST)
- 7.22. Nicanti
- 7.23. Nitto Denko
- 7.24. Oike & CO., Ltd.
- 7.25. Panipol Ltd
- 7.26. Regroupement quebecois sur les materiaux de pointe (RQMP)
- 7.27. Sheldahl
- 7.28. Sumitomo Metal Mining Co., Inc.
- 7.29. Teijin Kasei America, Inc.
- 7.30. Top Nanosys
- 7.31. Toray
- 7.32. Toyobo
- 7.33. Unidym
- 7.34. University of Michigan
- 7.35. VisionTek Systems Ltd.
8. FORECASTS FOR TCF FOR FLEXIBLE ELECTRONICS 2010-2020
- 8.1. The potential significance of organic and printed inorganic
electronics
- 8.2. Forecasts for flexible electronics 2010-2020
- 8.3. TCFs market size
9. REFERENCES
APPENDIX 1: IDTECHEX PUBLICATIONS AND CONSULTANCY
TABLES
- 1.1. TCO Layer Market Forecasts 2010-2020 US$ bn
- 4.1. TCF requirements for different applications
- 4.2. Table: Main criteria to assess for TCFs
- 4.3. Table: Comparison of TCF material of H.C. Starck and ITO films
- 8.1. Leading market drivers 2020
- 8.2. Market value (US$ billion) of flexible/conformal electronics 2010-2020
- 8.3. Total market value of flexible vs. rigid electronics 2010-2020 US$
billion
- 8.4. TCO Layer Market Forecasts 2010-2020
FIGURES
- 1.1. Flexible OLED fabricated using IMREs high barrier substrate and
encapsulation technique
- 1.2. Flexible Solar Cell developed by Fraunhofer IPMS
- 1.3. TCO Layer Market Forecasts 2010-2020 US$ bn
- 2.1. Conductivity of several materials.
- 3.1. Structure of a TFT-LCD
- 3.2. PolyDisplay' s see through display
- 3.3. EL display for a car dashboard
- 3.4. Cross section of an EL display
- 3.5. Two types of OLED construction
- 3.6. Constructions of Inorganic PV cells
- 3.7. Materials investigated for Organic Photovoltaics
- 3.8. Flexible electronics
- 4.1. Relationship between resistance and transparency
- 4.2. Flex testing of ITO on foil
- 5.1. Cost of ITO and global ITO production
- 5.2. Global Indium Production in 2007
- 5.3. PEDOT:PSS conductivity development
- 5.4. Structure of single-walled carbon nanotubes
- 5.5. The chiral vector is represented by a pair of indices (n, m). T
denotes the tube axis, and a1 and a2 are the unit vectors of graphene in real
space.
- 6.1. Comparison of OLED performance. The top electrode made of printed ITO
- 7.1. Directly produced prepatterned films
- 7.2. CNT Ink Production Process
- 7.3. Target application areas of Eikos
- 7.4. Gunze' s flexible display, presented early 2009
- 7.5. H.C. Stark
- 7.6. The owners of Nicanti
- 7.7. Nicanti Printaf project
- 7.8. TCF from Nitto Denko
- 7.9. TCF solutions from Panipol
- 7.10. VisionTek Systems TCF materials
- 8.1. Leading market drivers 2020
- 8.2. Market value (US$ billion) of flexible/conformal electronics 2009-2020
- 8.3. Total market value of flexible vs. rigid electronics 2010-2020 US$
billion
- 8.4. TCO Layer Market Forecasts 2010-2020 US$ billion
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