Transparent Conductive Films (TCF) 2013-2023: Forecasts, Technologies, Players: IDTechEx

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Transparent Conductive Films (TCF) 2013-2023: Forecasts, Technologies, Players

Assessment of ITO's future and its alternatives including nanowires, metal oxides, organic & inorganic conductors


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This report focuses on the markets, requirements and current and emerging technologies of transparent conductors. Worldwide research and design efforts are presented, both from research institutes and companies that are developing the necessary materials and processes - over 50 organizations are profiled. It covers metal oxides, organic materials, and emerging alternatives including inorganic meshes, carbon nanotubes, graphene and more. The penetration of these options into applications such as displays, photovoltaics and touch screens, and others, is given for the next 10 years.
The importance of Transparent Conductive Films (TCF)
Transparent conductive films are used for displays, some photovoltaics and touch screen modules. In 2012, 93% of the market used Indium Tin Oxide (ITO) - which can be expensive depending on the current price of indium and is brittle, and barely flexible. Other metal oxides are used, particularly in some thin film photovoltaics which offer a cost advantage over ITO.
 
However, now there are many other emerging technologies, from finely printed conductive meshes, to layers of silver or copper that are highly transparent, to organic transparent conductors, and variations such as carbon nanotubes and graphene. This report assesses the technical progress of these options, and their market sweet spot (if any) and forecast penetration.
 
Transparent Conductive Film market US$ millions*
 
*For the full forecast data please purchase this report
 
Source: IDTechEx
 
Each option has trade-offs between conductivity, cost, transmittance, and flexibility. Each can be patterned in different ways. While sputtering will remain an important and high-volume technology for coating of rigid substrates like glass, solution-based processes including printing and the use of organic and nanoparticle materials have already gained a lot of traction and are expected to dominate the market for the flexible applications within a few years. Significant new developments are being made with both the materials used and how they can be deposited. This report addresses the performance of the different options and profiles organizations around the world that are developing better solutions.
The biggest opportunity
The biggest opportunity has been - and for the next decade will be - for displays, but this increasingly includes a wide range of displays including OLEDs, which is now the priority of companies such as Samsung.
 
While ESD (electro static discharge) applications have moderate requirements concerning the properties of TCFs, demands in devices such as OLEDs are more complex. The main reason is that in that case, not only the standard properties as conductivity, cost, transmittance and flexibility are important, but the interactions with other layers play an important role, namely charge carrier injection. In addition, for large area devices, homogeneity is more critical, especially when it comes to display and lighting applications. The human eye is more sensitive to changes in brightness than to changes in colour, and brightness of an light emitting device depends on the electrical conditions - voltage in the case of inorganic electroluminescence, current flow in the case of electrochromic and light-emitting semiconductors.
 
This report critically assesses these issues.
Market forecasts 2013-2023
IDTechEx find that the market for TCFs will be over $1.63 billion in 2013. This is the cost of the material used for the TCF, excluding the substrate and processing cost. It is based on a ground-up calculation of the material usage by each type of device, and benchmarking with results from exhaustive interviews of users and suppliers of TCFs. The report gives ten year forecasts by TCF technology, in addition to ten year forecasts of the TCF area required by application.
 
We study the processing cost of different options - for example, the material cost of Carbon Nanotubes (CNT) are similar to ITO but the structure of a CNT TCF is much simpler and much easier to make and therefore overall the CNT TCF, like for like, can be cheaper.
 
Market by technology type US$ millions*
 
*For the full forecast data please purchase this report
 
Source: IDTechEx
Who should buy this report
For those that seek to address opportunities in this field, learn the latest progress from around the world, the challenges and market potential, this report is a must. Activities of more than 53 organizations from across the globe are covered.
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Further information
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Table of Contents
1.EXECUTIVE SUMMARY
2.OVERVIEW OF TOUCH TECHNOLOGIES
3.TARGET MARKETS - PERFORMANCE TARGETS, MARKET DRIVERS AND MARKET DYNAMICS
3.1.Mobile phones (touch screen)
3.2.Tablets (touch screen)
3.3.Monitors and notebooks (touch screen)
3.4.Large-sized Displays (touch screen)
3.5.OLED lighting
3.6.OLED displays
3.7.LCD displays
3.8.Thin Film photovoltaics
3.9.Transparent Heaters
3.10.EMI Shielding
4.KEY MARKET DRIVERS AND CHANGING LANDSCAPE
5.TECHNOLOGY OPTIONS - SWOT, MANUFACTURING, PERFORMANCE AND COSTS, CURRENT USES, FUTURE TRENDS AND MARKET DRIVERS, PLAYERS
5.1.ITO-on-glass
5.2.ITO-on-PET
5.3.Silver nanowires
5.4.Graphene
5.5.PEDOT:PSS
5.6.Carbon Nanotubes
5.7.Metal mesh
5.8.Direct printing
5.9.Embossing
5.10.Photolithography/etching
5.11.Other
5.12.Other nanotechnology-enabled solutions
5.13.Micro-wire technology
5.14.Benchmarking and comparison
6.MARKET SHARE, GROWTH RATES AND SIZES BY APPLICATION
6.1.Touch screens
6.2.Mobile
6.3.Tablets
6.4.Notebooks/monitors
6.5.Large-sized displays
6.6.Displays
6.7.OLED Lighting
6.8.Thin Film Photovoltaics
7.MARKET GROWTH RATE AND SIZE BY TECHNOLOGY
7.1.ITO-on-PET
7.2.Silver nanowires
7.3.Graphene
7.4.Carbon nanotubes
7.5.PEDOT:PSS
7.6.Metal Mesh
8.CONCLUSIONS
9.PROFILES
9.1.3M
9.2.Afga-Gevaert
9.3.Arkema
9.4.Atmel
9.5.Blue Nano
9.6.Bluestone Global Tech
9.7.Brewer Science
9.8.C3Nano
9.9.Caledon Controls
9.10.Cambrios
9.11.Canatu
9.12.Carestream
9.13.Chasm Technologies
9.14.Cheil Industries
9.15.Chisso Corp
9.16.Cima Nanotech Inc
9.17.ClearJet
9.18.Dai Nippon Printing
9.19.Daicel
9.20.Digitech
9.21.Displax Interactive Systems
9.22.Eikos
9.23.Evaporated Coatings Inc
9.24.FujiFilm
9.25.Goss International Americas
9.26.Graphene Laboratories
9.27.Graphene Platform
9.28.Graphene Square
9.29.Gunze
9.30.Hansung
9.31.Heraesu
9.32.Holst Centre
9.33.Institue of Chemical and Engineering Sciences
9.34.Join Well Technology Company
9.35.KAIST
9.36.Kodak
9.37.Komori
9.38.KPT Shanghai Keyan Phosphor Technology
9.39.Lee Tat Industrial Development
9.40.LG Chem
9.41.Mianyang Prochema Plastics
9.42.Mirae
9.43.Mitsui and Co
9.44.MNTech
9.45.Nanogap
9.46.Nanointegris
9.47.Nanopyxis
9.48.National Institute of Advanced Industrial Science and Technology
9.49.National University of Singapore
9.50.Nicanti
9.51.Nitto Denko
9.52.Noritake
9.53.O-Film
9.54.Oike
9.55.Panipol Ltd
9.56.Peratech
9.57.Perceptive Pixel Inc
9.58.PolyChem
9.59.PolyIC
9.60.Poly-ink
9.61.Power Booster
9.62.Rice University
9.63.Rolith
9.64.Sang Bo Corporation
9.65.Seashell Technology
9.66.SheeShim Technology
9.67.Sheldahl
9.68.Showa Denko
9.69.Sinovia Tech
9.70.Sony Corporation
9.71.SouthWest NanoTechnologies
9.72.Sumitomo Metal Mining
9.73.Suzitora
9.74.TDK
9.75.Teijin Chemical
9.76.Teijin Kasei America
9.77.TopNanosys
9.78.Toray Industries
9.79.Toyobo
9.80.UCLA
9.81.Unidym
9.82.Unipixel
9.83.University of Exeter
9.84.Ushine
9.85.VisionTec Systems
9.86.Visual Planet
9.87.XinNano Materials
9.88.Zytronic
 

Report Statistics

Pages 135
Tables 16
Figures 59
Forecasts to 2023
 
 
 
 

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