|
Table of Contents
1. EXECUTIVE SUMMARY
2. INTRODUCTION TO TRANSPARENT CONDUCTING FILMS (TCF): MATERIALS AND TECHNOLOGIES
2.1. Transparent Conductive Oxides
2.2. Organic conductors
2.3. Metal layers and grids
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
3.3. Touch Screens
3.4. Photovoltaics
3.4.1. Crystalline Silicon
3.4.2. Thin film and Organic PV
3.5. Security Applications
4. MAIN CRITERIA OF TCFS
4.2. Transparency
4.3. Conductivity
4.4. Flexibility
4.5. Cost
4.5.1. Patterning Cost ITO vs CNTs
4.6. Other parameters
5. MATERIALS USED FOR TCFS
5.1. Doped oxide metals
5.1.1. ITO Challenges: Cost and availability
5.1.2. Evolution of pricing for ITO
5.2. Organic Conductors
5.2.1. Evolution of conductivity of transparent organic materials
5.3. Metallic nanoparticles (silver and copper)
5.4. Carbon Nanotubes and Graphene
5.4.1. Carbon Nanotubes
5.4.2. Graphene
5.5. Hybrids: Metal grids with transparent organic material
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. Deposition of Organic Materials
6.3. Nanomaterials
6.3.1. Metallic nanoparticles
6.3.2. CNT and Graphene
7. COMPANIES
7.1. Agfa Orgacon
7.2. Caledon Controls
7.3. Cambrios Technologies Corp.
7.4. Canatu Ltd.
7.5. Carestream Advanced Materials
7.6. Chasm Technologies
7.7. Cheil Industries
7.8. Chisso Corp.
7.9. Cima NanoTech
7.10. C3Nano
7.11. Dai Nippon Printing Co Ltd (DNP)
7.12. Dontech Inc.
7.13. Duke University
7.14. Eastman Kodak
7.15. Eikos
7.16. Evaporated Coatings Inc.
7.17. Evonik
7.18. Fujifilm Ltd
7.19. Gunze Ltd
7.20. Heraeus Clevios (formerly H.C. Starck Clevios)
7.21. Holst Center
7.22. Institute of Chemical and Engineering Sciences (ICES), Singapore
7.23. Join Well Technology Company Ltd.
7.24. KAIST
7.25. KPT Shanghai Keyan Phosphor Technology Co. Ltd.
7.26. Lee Tat Industrial Development (LTI) Ltd
7.27. LG Chem
7.28. Mianyang Prochema Plastics Co., Ltd.
7.29. Mitsui & Co. (U.S.A.), Inc., Mitsui Ltd., Japan
7.30. Nanoforge
7.31. National Institute of Advanced Industrial Science and Technology (AIST)
7.32. Nicanti
7.33. Nitto Denko
7.34. Oike & CO., Ltd.
7.35. Panipol Ltd
7.36. Polychem UV/EB
7.37. PolyIC
7.38. Rice University
7.39. Samsung Electronics, Korea
7.40. Sang Bo Corporation (SBK), Korea
7.41. Sigma-Aldrich
7.42. Sheldahl
7.43. Sony Corporation
7.44. Sumitomo Metal Mining Co., Inc.
7.45. Suzutora
7.46. Teijin Kasei America, Inc. / Teijin Chemical
7.47. Top Nanosys
7.48. Toray Advanced Film (TAF)
7.49. Toyobo
7.50. UCLA
7.51. Unidym
7.52. University of Michigan
7.53. VisionTek Systems Ltd.
7.54. XinNano Materials, Inc., Taiwan
8. FORECASTS FOR TCF FOR FLEXIBLE ELECTRONICS 2012-2022
8.1. The potential significance of organic and printed inorganic electronics
8.2. Forecasts for flexible electronics 2012-2022
8.3. TCFs market size 2012-2022
8.4. Market by TCF Technology Type
APPENDIX 1: IDTECHEX PUBLICATIONS AND CONSULTANCY
TABLES
1.1. Market share of transparent conductive films
1.2. Total Area of TCFs by application type, in Km Squared, 2012-2022
1.3. Transparent Conductive Film market 2012-2022 US$ millions
1.4. Market by technology type 2012-2022 US$ millions
1.5. Market value $ billions of only flexible/conformal electronics 2012-2022
3.1. Touch screen technologies
3.2. Percentage of material costs for each of the main layers of the organic PV device
4.1. TCF requirements for different applications
4.2. Main criteria to assess for TCFs
4.3. Comparison of TCF material of Heraeus Clevios and ITO films
8.1. Leading market drivers 2022
8.2. Market value $ billions of only flexible/conformal electronics 2012-2022
8.3. Total market value of flexible vs. non-flexible electronics 2012-2022 US$ billion
8.4. Total Area of TCFs by application type, in Km Squared, 2012-2022
8.5. Transparent Conductive Film market 2012-2022 US$ millions
8.6. Market by technology type 2012-2022 US$ millions
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. Total Area of TCFs by application type, in Km Squared, 2012-2022
1.4. Transparent Conductive Film market 2012-2022 US$ millions
1.5. Market by technology type 2012-2022 US$ millions
1.6. Opportunities for PEDOT in the display industry
1.7. Market value $ billions of only flexible/conformal electronics 2012-2022
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
3.9. Efficiency of TCF vs Cell Size
3.10. Indium migration vs other TCFs
4.1. Relationship between resistance and transparency
4.2. Flex testing of ITO on foil
4.3. Cost to pattern ITO vs CNTs for a touch panel
5.1. Cost of ITO and global ITO production
5.2. Global Indium Production in 2010
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.
5.6. Cell size and efficiency
5.7. Indium migration vs TCF alternatives
6.1. Comparison of OLED performance. The top electrode made of printed ITO
7.1. Conductive grid design showing Aluminum on PET substrate
7.2. Directly produced prepatterned films
7.3. Yielded cost per unit area of TCF for touch panel applications
7.4. Tiny copper wires can be built in bulk and then 'printed' on a surface to conduct current, transparently.
7.5. Eastman Kodak HCF Film
7.6. Opportunity for PEDOT in the Display industry
7.7. Performance of PEDOT formulation from Eastman Kodak versus ITO
7.8. CNT Ink Production Process
7.9. Target application areas of Eikos
7.10. Gunze's flexible display, presented early 2009
7.11. Overview: Application areas of Clevios material
7.12. Efficiency of TCF vs Cell Size
7.13. Indium migration vs other TCFs
7.14. The owners of Nicanti
7.15. Nicanti Printaf project
7.16. TCF solutions from Panipol
7.17. Polychem PEDOT Polymer Coating
7.18. Patterned Sample by the New Technology
7.19. JEFF FITLOW -Yu Zhu, a postdoctoral researcher at Rice University, holds a sample of a transparent electrode that merges graphene and a fine aluminum grid
7.20. A hybrid material that combines a fine aluminum mesh with a single-atom-thick layer of graphene
7.21. An electron microscope image of a hybrid electrode developed at Rice University
7.22. Teijin's ELECLEAR ITO film
7.23. VisionTek Systems TCF materials
8.1. Leading market drivers 2022
8.2. Market value $ billions of only flexible/conformal electronics 2012-2022
8.3. Total market value of flexible versus non-flexible electronics 2012-2022 in US$ billion
8.4. Total Area of TCFs by application type, in Km Squared, 2012-2022
8.5. Transparent Conductive Film market 2012-2022 US$ millions
8.6. Market by technology type 2012-2022 US$ millions
|
ÇöÀçÀ§Ä¡ : 
