In 2012, the touch panel transparent conductive film market was valued at $956 million. On addition, the overall industry for touch panel transparent conductive film is estimated to cross over $ 4.2 billion over the forecast period. Also, ITO is considered to be the well- established technology for display manufacturing. This technology has emerged as the equipment for transparent conductive film for the touch screens. Modern technologies are expected to erode ITO and offer enhanced functionality as lesser prices. A transparent conductive film improves and supports the usability of electronic devices. Furthermore, Usefulness of all the electronics devices is improved by its potential to navigate with the use of touch screens. Features of electronics applications and smart phones are enabled by transparent conductive film. Besides, these products also support the association as solutions are highly competitive. Growing market opportunities associated with the media devices and mobile communication of smart phones among others will impact the market. Also, transport conductive film offers the support for device routing by identifying the existence of a finger while it moves crossways the screen. The market for transparent conductive film is considered to be highly competitive. As the new technologies develop, the competition is likely to build up noticeably over the forecast period. Reliability, price, innovation, relative price and performance and product quality are the competitive factors for transparent conductive film. The usage of transparent conductive films in touch screen functions is being overcome by Indium tin oxide. On addition, it also needs a cumbersome and expensive process of sputtering deposition. The prices of indium are expected to grow rapidly over the forecast period. Also, the film that is used is very rigid. After several researches, it has been stated that the requirement of more lithe film in the industry is likely to expand over the coming years. Commentary on every aspect of the industry from autonomous analysts forms an independent perspective in market evaluation. This study also displays the comprehensive overview of things happening in the market and also assistance of mangers with designing market strategy which is projected to succeed in future.
Table of Content Transparent Conductive Film Executive Summary Touch Panel Transparent Conductive Film Market Driving Forces Transparent Conductive Film Supports Electronic Device Usability Transparent Conductive Film Market Driving Forces Touch Panel Transparent Conductive Film Market Shares Touch Panel Transparent Conductive Film Market Forecasts 1. Transparent Conductive Film Market Description and Market Dynamics 1.1 Transparent Conductive Film 1.1.1 Smart Phone Company Operations And Performance 1.1.2 Business and Technology Trends 1.1.3 Cloud Computing And Virtualization 1.1.4 Enterprise Mobility 1.2 World Economy Undergoing A Transformation 1.2.1 Global Economic Conditions: 1.2.2 Global Economy Becomes Steadily More Sluggish 1.2.3 Global Economic Conditions Impact Markets 2. Transparent Conductive Film Market Shares and Forecasts 2.1 Touch Panel Transparent Conductive Film Market Driving Forces 2.1.1 Transparent Conductive Film Supports Electronic Device Usability 2.1.2 Transparent Conductive Film Market Driving Forces 2.2 Touch Panel Transparent Conductive Film Market Shares 2.2.1 Teijin Chemicals 2.2.2 Teijin Chemicals Technological Advancement And Enhanced Product Functionality 2.2.3 Cambrios and Hitachi Chemical Collaborate on Patternable, Transferable Transparent Conductive Film 2.2.4 Hitachi Chemical Film 2.2.5 Unidym 2.3 Touch Panel Transparent Conductive Film Market Forecasts 2.3.1 Capacitive Touchscreen Transparent Conductive Film 2.3.2 Resistive Touchscreen Transparent Conductive Film 2.3.3 Patterning ITO vs CNTs Cost 2.3.4 Microsoft Bets Personal Computing (PCs) Taking A New Direction: Touch 2.3.5 Markets, Requirements And Technologies Of Transparent Conductor Films 2.3.6 Indium tin oxide (ITO) Alternatives In Transparent Conductive Films Market 2.3.7 Transparent Conductors Can Be Based On Nano-Silver 2.3.8 Conductive Transparent Silver Nanowire Thin Film Market Forecasts 2.3.9 Silver Nano Particles 2.3.10 Silver Nano Wires 2.3.11 Carbon Nanotubes Market Size 2.3.12 Cabon Nanotube (CNT) Makers 2.3.13 Flexible or Printable Electronics Market Size 2.3.14 Factors That Influence Commercial Success In The Wireless Device And Services Market 2.3.15 Flexible E-Readers And Touchscreens 2.3.16 Flexible Photovoltaics 2.3.17 Printed Electronics Market 2.3.18 C3Nano Challenges ITO 2.3.19 Key Nanotechnology Market Segments 2.3.20 Touch Panel Films 2.3.21 E-Paper & Flexible Displays 2.3.22 OLED Lighting 2.3.23 Photovoltaics 2.3.24 Health care Packaging Market 2.4 Touch Panel Transparent Conductive Film Prices 2.5 Touch Panel Transparent Conductive Film Regional Market Segments 2.6 Smart Phone Market Regional Analysis 2.6.1 Samsung Smartphone Shipments by Region, Dollars,H2 2012 2.6.2 Apple Smartphone Shipments by Region, Units and Dollars,2011 and H1 2012 2.6.3 ZTE Smartphone Shipments by Region 2.6.4 Research In Motion (RIM) Smartphone Shipments by Region 2.6.5 HTC Smartphone Shipments by Region 2.6.6 China 2.6.7 China overtakes US As Largest Smart Phone Market for Unit Shipments 2.6.8 Chinese Apps 2.6.9 Positioning Apps in China 2.6.10 Mobile Phones Japan 2.6.11 ZTE 2.6.12 CDMA Regional Subscriber Base 3. Transparent Conductive Film Product Description 3.1 Nitto Denko 3.1.1 Nitto Denko Thin Film Applications 3.2 OIKE & Co., Ltd 3.2.1 Oike Tetolight TCF 3.3 Teijin Chemicals 3.4 Sumitomo Metal Mining Co Transparent Conductive Film 3.5 Calico Coatings' 3.6 3M Transparent Conductive Film 3.6.1 3M Unpatterned Transparent Conductive Film 3.6.2 3M™ Unpatterned Transparent Conductors 3.6.3 3M™ Patterned Transparent Conductor Film 3.6.4 3M Transparent Conductive Film Corporate Division 3.6.5 3M Display and Graphics Business Segment 3.6.6 3M Transparent Conductive Film Medical Packaging Products 3.6.7 3M Transparent Conductive Film Definition 3.6.8 3M Translucent High Barrier Film 3.6.9 3M's Silver Ink Capacitive Touchscreens 3.6.10 3M™ Transparent Conductors 3.6.11 3M™ Unpatterned Transparent Conductors 3.6.12 3M™ Ultra Transparent Electrically Conductive Film 8880 3.7 Toray Advanced Film Transparent Conductive Material Using Silver Nanowire Ink 3.7.1 Toray Transparent Conductive Films 3.7.2 Toray Transparent Conductive Film Primary Raw Material Indium 3.7.3 Toray Strategic Partnership with Cambrios Technologies Corporation Nanowire Ink Technology 3.7.4 Toray Thin Film Transparent Conductivity Surface Resistivity 3.7.5 Toray Thin Film Transparent Conductivity ITO 3.7.6 Toray Thin Film Transparent Conductivity Coloration 3.7.7 Toray Thin Film Transparent Conductivity Invisible Patterning Properties 3.8 Wisepower / Unidym Transparent Carbon Nanotube (CNT) Conductive Films 3.8.1 Wisepower / Unidym Carbon Nanotube (CNT) Successor to ITO 3.8.2 Wisepower / Unidym Addresses Problems with ITO by Implementing Carbon Nanotubes (CNT) 3.8.3 Wisepower / Unidym Introduces Carbon For Electronics 3.8.4 Unidym Materials– 3.8.5 Unidym Carbon Nanotubes CNTs Chemical Vapor Deposition (CVD) Process 3.8.6 Unidym Architecture– 3.8.7 Unidym Technology Platform 3.8.8 Unidym Touch Screens 3.8.9 Unidym Flat Panel Displays– 3.8.10 Unidym High Speed, Solution-Based Processing– 3.9 NanoIntegris High Mobility Semiconductor Inks 3.9.1 NanoIntegris Transparent Conductive Films Integral Components Of Devices 3.9.2 NanoIntegris Results Using Sorted Nanotubes 3.9.3 NanoIntegris High Resiliency, Low Sheet Resistance 3.10 FUJIFILM Corporation 3.11 Kodak and Heraeus Transparent Conductive Films For Touch Screens 3.11.1 Kodak Touch Screen Technology 3.11.2 Capacitive Touch Screen Is For Use In Cellular Handsets 3.11.3 Kodak Point-Of-Sale Signage Application 3.12 Orthangonal 3.13 Apple Patent Could Lead To Thinner, Lighter iPhone Screens 3.14 Honeywell 3.15 Cambrios and Hitachi Chemical Collaborate 3.15.1 Cambrios and Hitachi Patternable, Transferable Transparent Conductive Film 4. Transparent Conductive Film Technology 4.1 Transparent Conductive Film Basic Technologies 4.2 Toray Thin Film Transparent Conductivity Surface Resistivity 4.2.1 Toray Thin Film Transparent Conductivity ITO 4.2.2 Toray Thin Film Transparent Conductivity Coloration 4.2.3 Toray Thin Film Transparent Conductivity Invisible Patterning Properties 5. Transparent Conductive Film Company Description 5.1 3M 5.1.1 3M Revenue 5.1.2 3M Business Segments 5.1.3 3M Health Care Business: 5.1.4 3M Consumer and Office Business: 5.1.5 3M Safety, Security and Protection Services Business: 5.1.6 3M Performance By Geographic Area 5.2 Calico Coatings' 5.2.1 Calico Coatings' Physical Vapor Deposition (PVD) 5.3 Cambrios 5.4 DVTI 5.4.1 DVTI's State Of The Art DVD coater 5.4.2 Directed Vapor Deposition 5.5 Hitachi 5.6 Honeywell 5.6.1 Honeywell Performance Materials and Technologies 5.7 Heraeus 5.8 Kodak 5.8.1 Kodak Transparent Conductive Film 5.9 Nitto Denko 5.9.1 Nitto Denko Financial Data 5.10 OIKE & Co., Ltd 5.10.1 OIKE Use Of Dry And Wet Coating Technologies 5.10.2 OIKE Reform Involves Shift In Focus Away From Core Fields Of The Past 5.11 Orthogonal 5.12 Leonhard Kurz Stiftung & Co.KG / PolyIC 5.13 Sumitomo Metal Mining Co 5.13.1 Sumitomo Metal Mining Co Sapphire Substrates 5.13.2 Sumitomo Metal Mining Co Revenue 5.13.3 Sumitomo Metal Mining Co Materials Segment 5.13.4 Smelting & Refining Segment 5.14 Teijin Group 5.14.1 Teijin Chemicals' ELECLEAR™ Transparent Conductive Film 5.14.2 Teijin ELECLEAR 5.14.3 Teijin Revenue 5.14.4 Teijin Films 5.14.5 Teijin Healthcare 5.14.6 TeijinPharmaceuticals 5.14.7 Teijin Advanced Fibers & Composites Business 5.14.8 DuPont Teijin Films Worldwide 5.15 Toray 5.15.1 Toray Strategic Partnership with Cambrios Technologies Corporation 5.16 Wisepower / Unidym 5.16.1 Unidym Product Overview 5.16.2 Unidym Manufacture And Application Of Carbon Nanotube (CNT) 5.16.3 Unidym Focused On The Electronics Industry 5.17 Selected Transparent Conductive Film Companies 5.17.1 Transparent Conductive Film University Research
List of Tables Table ES-1 Touch Panel Transparent Conductive Film Principal Competitive Factors Table ES-2 Transparent Conductive Film Market Driving Forces Figure ES-3 ITO Transparent Conductive Film Market Shares, Dollars, 2012 Figure ES-4 Touch Panel Transparent Conductive Thin Film, Dollars, Market Forecasts, Worldwide, 2013-2019 Figure 1-1 Foreign Exchange Trend Figure 1-2 GDP Growth Outlook Table 2-1 Touch Panel Transparent Conductive Film Principal Competitive Factors Table 2-2 Transparent Conductive Film Market Driving Forces Figure 2-3 ITO Transparent Conductive Film Market Shares, Dollars, 2012 Table 2-4 ITO Transparent Conductive Film Market Shares, Dollars, Worldwide, 2012 Figure 2-5 Teijin Chemicals Transparent Conductive Films Figure 2-6 Touch Panel Transparent Conductive Thin Film, Dollars, Market Forecasts, Worldwide, 2013-2019 Table 2-7 Transparent Conductive Film Market Forecasts Units and Dollars, Worldwide, 2013-2019 Table 2-8 Main Criteria Of Transparent Conductive Films (TCFS) Table 2-9 Touch Panel Transparent Conductive Film ITO, Silver Nanowire, Metal Oxides, Organic Based Films, and Composites Market Forecasts, Units and Dollars, Worldwide, 2013-2019 Table 2-10 Indium Tin Oxide (ITO) Transparent Conductive Thin Film Market Forecasts, Dollars, Worldwide, 2013-2019 Table 2-11 Conductive Transparent Silver Nanowire Thin Film Market Forecasts, Dollars, Worldwide, 2013-2019 Table 2-12 Transparent Conductor Film Main uses Table 2-13 Transparent Conductor Film Value and Market Share Table 2-14 Transparent Conductor Film Main Technologies Table 2-15 Conductive Transparent Silver Nanowire Thin Film Market Forecasts, Dollars, Worldwide, 2013-2019 Table 2-16 Smart Phone Innovation Figure 2-17 Opportunities for ITO Replacements Figure 2-18 C3Nano Value Chain Participation Source: C3Nano. Figure 2-19 Transparent Conductive Film Regional Market Segments, Dollars, 2012 Table 2-20 Transparent Conductive Film Regional Market Segments, 2012 Figure 2-21 Smart Phone Regional Market Segments, Dollars, 2011 Table 2-22 Smart Phone Regional Market Segments, Dollars, 2011 Table 2-23 Smartphone Shipments Samsung by Region, Dollars, 2011 Table 2-24 Samsung Regional Market Segments, Worldwide, 2011 and 2012 Table 2-25 Apple Smart Phone Regional Market Segments, Dollars, Worldwide, H1 2012 Table 2-26 Apple Smartphone Shipments by Region, Units and Dollars,2011 Table 2-27 ZTE Smart Phone Regional Market Segments, Dollars, Worldwide, H1 2012 Table 2-28 Research In Motion (RIM) Smartphone Shipments by Region, Dollars,H2 2012 and 2011 Table 2-29 Research in Motion Smart Phone Regional Market Segments, Dollars, Worldwide, H1 2012 Table 2-30 Research in Motion Regional Market Segments, Dollars, Worldwide, 2011 and 2012 Table 2-31 HTC Smart Phone Regional Market Segments, Dollars, Worldwide, H1 2012 Figure 2-32 CDMA Regional Subscriber Base Figure 3-1 Nitto Denko Conductive Transparent Film Figure 3-2 Nitto Denko Conductive Transparent Film Structures Table 3-3 Nitto Denko Conductive Transparent Film Features Figure 3-4 Nitto Denko ELECRYSTA-Based Touch Screen Figure 3-5 Oike Transparent Conductive FIlm Figure 3-6 3M™ offers Unpatterned Transparent Conductors (UTC) Figure 3-7 3M Unpatterned Transparent Conductor Selection Guide Table 3-8 3M electro and communications segment target markets Table 3-9 3M Transparent Conductive Thin Film Products Supported Table 3-10 3M Transparent Conductive Film Medical Packaging Products Figure 3-11 3M Capacitive Touchscreens With Tiny Bezels, 10x Faster Responsiveness Table 3-12 Toray Transparent Conductive Film Market Advantages Table 3-13 Toray Transparent Conductive Film Market Challenges Table 3-14 Toray Key Technology Benefits Of The Transparent Conductive Film Nanowire Ink Figure 3-15 Toray Industries Mass-Production Of Transparent Conductive Sheet Using Two-Layer Carbon Nanotubes (CNTs) Figure 3-16 CNT Transparent Conductive Film Table 3-17 Wisepower / Unidym's Carbon Nanotube (CNT) Thin Film Primary Applications Table 3-18 Benefits of Wisepower/ Unidym Carbon Nanotube (CNT) Thin Films Table 3-19 Wisepower / Unidym Addresses Problems with ITO by Implementing Carbon Nanotubes (CNT) Table 3-20 Wisepower / Unidym Product differentiation Figure 3-21 Unidym Carbon Nanotubes CNTs Chemical Vapor Unidym Carbon Nanotubes CNTs Chemical Vapor Figure 3-22 Unidym Technology Platform Figure 3-23 Unidym Thin Films Figure 3-24 Unidym Carbon Nanotubes Figure 3-25 Unidym Touch Screens Figure 3-26 Unidym Glass Films Figure 3-27 Unidym Carbon Nanotube CNT Film Features Table 3-28 Unidym Carbon nanotube films Flat Panel Display Features Table 3-29 NanoIntegris Products Figure 3-30 NanoIntegris Transparent Conductive Films Table 3-31 NanoIntegris Carbon Nanotubes Characteristics Table 3-32 Orthangonal Positioning Table 3-33 Orthangonal Product Features Figure 3-34 Apple iPhone Screens Figure 4-1 Dry Coating Vacuum Deposition and Sputtering Process for Transparent Conductive Film Figure 4-2 Wet Coating Process for Transparent Conductive Film Table 5-1 3M Diversified Technology Company Businesses Table 5-2 3M Business Segment Products Figure 5-3 Directed Vapor Technologies International Vapor Deposition Set Up Figure 5-4 DVTI Without Gas Jet Unfocused copper vapor (green) Figure 5-5 DVTI With Gas Jet: Focused Copper Vapor Figure 5-6 Sumitomo Metal Mining Co Expansion of Battery Materials Figure 5-7 Sumitomo Metal Mining Co Sales Integration in China Figure 5-8 Sumitomo Metal Mining Co Launch of Sapphire Substrates Figure 5-9 Sumitomo Metal Mining Co Materials Segment Figure 5-10 Sumitomo Metal Mining Co Revenue Figure 5-11 Sumitomo Metal Mining Co Segment Margin Figure 5-12 Sumitomo Metal Mining Co Smelting & Refining Segment Table 5-13 Teijin Advanced Fibers & Composites Business Figure 5-14 Unidym Product Overview
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