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市場調査レポート

透明エレクトロニクス:各種技術と世界市場

Transparent Electronics: Technologies and Global Markets

発行 BCC Research 商品コード 133574
出版日 ページ情報 英文 142 Pages
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透明エレクトロニクス:各種技術と世界市場 Transparent Electronics: Technologies and Global Markets
出版日: 2010年09月01日 ページ情報: 英文 142 Pages

当商品の販売は、2016年07月01日を持ちまして終了しました。

概要

当レポートでは、透明エレクトロニクスの各種技術と市場について調査分析し、透明エレクトロニクス産業のバリューチェーン、材料タイプ・エンドユーズ産業/アプリケーション・地域別の透明エレクトロニクスコンポーネントの売上実績・予測(〜2015年)、各市場区分の主要動向、特許状況、主要ベンダーのプロファイルなどをまとめ、概略下記の構成でお届けいたします。

第1章 イントロダクション

第2章 エグゼクティブサマリー

第3章 透明エレクトロニクス:イントロダクション

  • 透明エレクトロニクスのバリューチェーンにおける主要構成因子
    • 導電性材料
    • 基板
    • 加工
  • 市場概要

第4章 透明エレクトロニクス材料

  • 無機材料
  • 有機材料
  • 個別材料分析:インジウムすず酸化物(ITO)
    • 市場分析
    • ITO:イントロダクション
    • ベースメタル としてのインジウム
    • ITOのファブリケーション技術
  • 個別材料分析:その他の無機材料
    • 市場分析
    • イントロダクション
    • 透明導電性酸化物
    • 透明トランジスター
  • 個別材料分析:導電性ポリマー
    • 市場分析
    • ポリマー:イントロダクション
    • ポリマーと導電性
    • 導電性ポリマーの成長牽引因子
    • 共役ポリマーと太陽電池
    • 導電性ポリマー:グラフェン
    • 導電性ポリマー:PEDOT: PSS
  • 個別材料分析:カーボンナノチューブ(CNT)とその他のナノマテリアル
    • 市場分析
    • カーボンナノチューブ:イントロダクション
    • 銀ナノ粒子

第5章 利用シナリオ

  • 太陽光・太陽電池
    • 市場分析
    • 太陽電池:イントロダクション
    • 従来型太陽電池
    • 薄膜電池
    • 有機太陽電池
    • 材料のダイナミクス
  • タッチ表面
    • 市場分析
    • タッチ表面:イントロダクション
    • 抵抗タッチ表面
    • キャパシティブタッチ表面
    • 材料のダイナミクス
  • 主要ディスプレイ
    • 市場分析
    • ディスプレイ:イントロダクション
    • LCD
    • 有機LED
    • 材料のダイナミクス
  • 非従来型表面
    • 市場分析
    • 非従来型表面:イントロダクション
    • プリンティング
    • 材料のダイナミクス

第6章 ベンダー分析

第7章 米国特許分析

目次
Product Code: IFT065A

Abstract

HIGHLIGHTS

  • BCC predicts that the market size for transparent electronics components will grow at a steady compound annual growth rate (CAGR) of 10% over the next 5 years. The market is valued at $76.4 billion in 2010 and is expected to reach $123 billion in 2015.
  • BCC forecasts an extremely promising future for the usage of organic material in transparent electronics and that its market share will increase from about 3% in 2010 to more than 16% in 2015. This sector is valued at $2.1 billion in 2010 and is expected to increase at a nearly 60% compound annual growth rate (CAGR) to $20.3 billion in 2015.
  • The inorganic material sector is worth an estimated $74 billion in 2010 and is expected to grow to $103 billion in 2015, a compound annual growth rate of 6.7%.

DEFINITION

Transparent electronics means many things to many people. However, nowhere is it more pertinent to set the definition right as it is in the case of transparent electronics.

This report defines transparent electronics as that which deals with devices whose key functioning hinges on material with the following attributes:

  • Transparency to light
  • Conductance of electricity

“Transparent electronics” sounds exotic to the ears. The mystique of transparent electronics is further fueled by references to the wide variety of devices and applications that were hitherto out of bounds for mainstream electronics. This is however, just a limited aspect of the transparent electronic discussion. The surprising aspect is that while the discussion around transparent electronics tends to revolve around what the future holds, there is very limited realization that transparent electronics have been functioning for a good half a century in a wide variety of products and devices.

It is always a healthy sign for the technology when its future appears exciting; however transparent electronics is a deceptive on this count. The future is undeniably exciting, but its levers are firmly in the hands of a supply chain that is wedded to the past.

This report is an attempt to unravel the dynamics of transparent electronics.

STUDY GOALS AND OBJECTIVES

This study has the following goals and objectives:

  • Forecasting the market size for overall transparent electronics components based on inorganic material in value and volume terms.
  • Forecasting the market size for overall transparent electronics components based on organic material in value and volume terms.
  • Breaking down the overall transparent electronics components based on the inorganic material market, on the basis of indium tin oxide (ITO) and other inorganic material.
  • Breaking down the overall transparent electronics components based on the organic material market, on the basis of conducting polymers and carbon nanotubes (CNT) and other nanomaterial.
  • Breaking down the overall transparent electronics components based on the organic and inorganic material market, on the basis of usage scenarios such solar and photovoltaic (PV) cells, touch surfaces, mainstream displays and unconventional substrates.
  • Breaking down the overall transparent electronics components based on the organic and inorganic material market, on the basis of end user device categories such as personal computing (PC), consumer electronics (CE), telecommunications, automotive, as well as scientific, industrial and other applications.
  • Breaking down the overall transparent electronics components based on the organic and inorganic material market, on the basis of geographical regions such as the Americas; Europe, Middle East, and Africa (EMEA); and Asia - Pacific (APAC).
  • Breaking down the overall transparent electronics components market based on usage scenarios, on the basis of end user device categories such as personal computing (PC), consumer electronics (CE), telecommunications, automotive, as well as scientific, industrial and other applications.
  • Breaking down the overall transparent electronics components market based on usage scenarios, on the basis of geographical regions such as Americas; Europe, Middle East, and Africa (EMEA); and Asia - Pacific (APAC).
  • Analyzing the applications, drivers and prospects for the overall transparent electronics components market with respect to different organic and inorganic material.
  • Analyzing the applications, drivers and prospects for the overall transparent electronics components market with respect to different usage scenarios.
  • Analyzing the stakeholder value chain in the transparent electronics market.
  • Analyzing the patenting activity involving transparent conductors.

REASONS FOR DOING THE STUDY

Transparent electronics is a market full of ironies in many ways. The dual nature of this market starts right with the name, which combines the unreal sounding attribute of transparency with electronics. This, unfortunately, is the least of the ironies.

Most of the hype surrounding transparent electronics is fueled by the exotic usage scenarios that it will engender: The idea of having electronic circuitry that is invisible to the human eye has few parallels in its appeal. There is an overwhelming popular discourse that this technology is being developed from scratch, when the reality is more mundane and humbling. Transparent electronics has been with U.S. for at least half a century. The core of transparent electronics, the transparent conductor, is neither a recent discovery nor is it unexplored vis - a - vis applications. Transparent conducting oxides (TCO), in general, and indium tin oxide (ITO), in particular, have a long history of usage in consumer electronics as well optical devices. They have been used for low profile applications such as cathode - ray tubes, electromagnetic shielding and other applications. The demand for these requirements was steady but limited and there were seemingly no supply side constraints.

The industry, however, was thrown for a loop when the world was confronted with the prospect of developing alternative energy sources. In came solar cells. The demand for solar cells is on the perennial ascendancy. These cells also use ITO and the industry began to feel the pinch on the supply side. The replacement of cathode - ray tubes (CRT) by liquid - crystal displays (LCD) put added strain on ITO availability. The touch surface revolution fueled by consumer electronics and telecommunication devices also had ITO as its material of choice. These seemingly different user scenarios gained traction in roughly the same short span of 4 to 5 years and suddenly, ITO became a scarce commodity. The final push to develop alternative material came from unconventional substrates, which will be discussed in this report.

This report analyzes the transparent electronics industry against this backdrop in regard to materials, stakeholder initiatives, patent activities, end application devices, usage scenarios and geographical regions.

SCOPE OF THE REPORT

The report forecasts the size of the market for transparent electronics components from 2010 through 2015.

The Executive Summary provides a snapshot of key findings of the report.

The chapter Introduction to Transparent Electronics assesses the technologies critical to understanding transparent electronics and clarifies key terms in the report.

The chapter on materials touches the single most important variable in the transparent electronics industry and discusses the technical and commercial dynamics governing different organic and inorganic materials.

The chapter on usage scenarios sheds light on the traditional and new - age drivers of transparent electronics and explains their implications for the different material types.

The chapter on vendor analysis explains the criterion for classification of stakeholder - mining experts, film fabricators, semiconductor majors, device original equipment manufacturers (OEMs), material and process innovators and research institutes. It also provides the latest information on the transparent electronics related initiatives of key companies in each category.

The U.S. Patent Analysis chapter highlights the patenting activity underway in the area of transparent conductors. The chapter classifies the patents awarded according to the activities involved in the synthesis, operations, applications and usage scenarios of transparent electronics components. It also provides a yearly, geographic, and distribution breakdown of these patents.

The report is punctuated with numerical findings and projections that substantiate and drive the theoretical discussion.

METHODOLOGY AND INFORMATION SOURCES

The report forecasts the market size for the following:

  • Inorganic material - based transparent electronics components. The material categories include ITO and other inorganic material.
  • Organic material - based transparent electronics components. The material categories include conducting polymer and CNT and other nanomaterial.
  • The definition of component differs according to usage scenario. The usage scenarios include solar/PV cells, touch surfaces, mainstream displays, and unconventional substrates.
  • The following metrics are forecast:
  • Value in millions of dollars
  • Volume in millions of units
  • Market by end - application categories such as telecommunications, PC, CE, automotive, as well as scientific, industrial and others
  • Market by geographical regions such as the Americas, EMEA and APAC

Both primary and secondary research methodologies were used in this study. Industry experts were interviewed; secondary sources included industry consortia, individual company financial statements, published opinions, and other published sources.

ABOUT THE AUTHOR

Kaustubha Parkhi has worked in a broad range of functional roles with leading telecommunications operators and service providers such as Reliance Infocomm, Ramco Systems, and BPL Cellular. He has written on an array of telecommunications - and electronics - related subjects based on his critical analysis of the underlying technology and its business impact. Kaustubha holds a Bachelor of Engineering (Equivalent of Bachelor of Science) in Electronics and Telecommunications, and an MBA in Systems.

Table of Contents

CHAPTER ONE INTRODUCTION

  • DEFINITION
  • STUDY GOALS AND OBJECTIVES
  • REASONS FOR DOING THE STUDY
  • SCOPE OF THE REPORT
  • INTENDED AUDIENCE
  • METHODOLOGY AND INFORMATION SOURCES
  • ABOUT THE AUTHOR
  • RELATED REPORTS
  • BCC ONLINE SERVICES
  • DISCLAIMER

CHAPTER TWO: EXECUTIVE SUMMARY

  • SUMMARY TABLE DOLLAR SALES OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, THROUGH 2015 ($ MILLIONS)
  • SUMMARY FIGURE DOLLAR SALES OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 ($ MILLIONS)
  • EXECUTIVE SUMMARY (CONTINUED)
  • EXECUTIVE SUMMARY (CONTINUED)

CHAPTER THREE: INTRODUCTION TO TRANSPARENT ELECTRONICS

  • KEY ENTITIES IN THE TRANSPARENT ELECTRONICS VALUE CHAIN
    • CONDUCTING MATERIALS
      • SUBSTRATES
      • PROCESSES
    • MARKET OVERVIEW
  • TABLE 1. SHIPMENT SALES OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, THROUGH 2015 (UNIT MILLIONS)
  • FIGURE 1. SHIPMENT SALES OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (UNIT MILLIONS)
  • TABLE 2. SALES OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 ($ MILLIONS)
  • FIGURE 2. SALES OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 ($ MILLIONS)
  • TABLE 3. SHIPMENTS OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 (MILLIONS)
  • FIGURE 3. SHIPMENTS OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 (MILLIONS)
  • TABLE 4. SALES OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 ($ MILLIONS)
  • FIGURE 4. SALES OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 ($ MILLIONS)
  • TABLE 5. SHIPMENTS OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 (MILLIONS)
  • FIGURE 5 SHIPMENTS OF TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (MILLIONS)
    • MARKET OVERVIEW (CONTINUED)

CHAPTER FOUR: TRANSPARENT ELECTRONICS MATERIAL

  • INORGANIC MATERIAL
    • MARKET ANALYSIS
  • TABLE 6. SALES OF INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, THROUGH 2015 ($ MILLIONS)
  • FIGURE 6. SALES OF INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 ($ MILLIONS)
  • TABLE 7. SHIPMENTS OF INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, THROUGH 2015 (UNIT MILLIONS)
  • TABLE 8. SALES OF INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 ($ MILLIONS)
  • TABLE 9. SHIPMENTS OF INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 (UNIT MILLIONS)
  • TABLE 10. SALES OF INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 ($ MILLIONS)
  • TABLE 11. SHIPMENTS OF INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 (UNIT MILLIONS)
    • ORGANIC MATERIAL
      • MARKET ANALYSIS
  • TABLE 12. SALES OF ORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, THROUGH 2015 ($ MILLIONS)
  • FIGURE 7. SALES OF ORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 ($ MILLIONS)
  • TABLE 13. SHIPMENTS OF ORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, THROUGH 2015 (UNIT MILLIONS)
  • TABLE 14. SALES OF ORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 ($ MILLIONS)
  • TABLE 15. SHIPMENTS OF ORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 (UNIT MILLIONS)
  • TABLE 16. SALES OF ORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 ($ MILLIONS)
  • TABLE 17. SHIPMENTS OF ORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 (UNIT MILLIONS)
    • INDIVIDUAL MATERIAL ANALYSIS - INDIUM TIN OXIDE
      • MARKET ANALYSIS
  • TABLE 18. SALES OF ITO - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS BY END APPLICATION, THROUGH 2015 ($ MILLIONS)
  • FIGURE 8. SALES OF ITO - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE
    • MANUFACTURERS BY END APPLICATION, 2008-2015 ($ MILLIONS)
  • TABLE 19. SHIPMENTS OF ITO - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS BY END APPLICATION, THROUGH 2015 (UNIT MILLIONS)
  • TABLE 20. SALES OF ITO - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS BY REGION, THROUGH 2015 ($ MILLIONS)
  • TABLE 21. SHIPMENTS OF ITO - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS BY REGION, THROUGH 2015 (UNIT MILLIONS)
    • INTRODUCTION TO INDIUM TIN OXIDE (ITO)
      • INDIUM.THE BASE METAL
      • ITO FABRICATION TECHNIQUE
    • INDIVIDUAL MATERIAL ANALYSIS - OTHER INORGANIC MATERIAL
      • MARKET ANALYSIS
        • TABLE 22. SALES OF OTHER INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 ($ MILLIONS)
  • FIGURE 9. SALES OF OTHER INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 ($ MILLIONS)
  • TABLE 23. SHIPMENTS OF OTHER INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 (UNIT MILLIONS)
  • TABLE 24. SALES OF OTHER INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 ($ MILLIONS)
  • TABLE 25. SHIPMENTS OF OTHER INORGANIC MATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 (UNIT MILLIONS)
    • INTRODUCTION
    • TRANSPARENT CONDUCTING OXIDES
      • Aluminum Zinc Oxide
    • TRANSPARENT TRANSISTORS - THE NEXT FRONTIER
      • Transparent Transistors ....(Continued)
    • INDEPENDENT MATERIAL ANALYSIS - CONDUCTING POLYMERS
      • MARKET ANALYSIS
  • TABLE 26. SALES OF CONDUCTING POLYMER - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 ($ MILLIONS)
  • FIGURE 10. SALES OF CONDUCTING POLYMER - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 ($ MILLIONS)
  • TABLE 27. SHIPMENTS OF CONDUCTING POLYMER - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 (UNIT MILLIONS)
  • TABLE 28. SALES OF CONDUCTING POLYMER - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 ($ MILLIONS)
  • TABLE 29. SHIPMENTS OF CONDUCTING POLYMER - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 (UNIT MILLIONS)
    • INTRODUCTION TO POLYMERS
    • POLYMERS AND CONDUCTION
    • DRIVERS FOR CONDUCTING POLYMERS
    • CONJUGATED POLYMERS AND SOLAR CELLS
    • CONDUCTING POLYMER-GRAPHENE
    • CONDUCTING POLYMER-PEDOT: PSS
    • INDEPENDENT MATERIAL ANALYSIS - CARBON NANOTUBE (CNT) AND OTHER NANOMATERIAL
    • MARKET ANALYSIS
  • TABLE 30. SALES OF CNT AND OTHER NANOMATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 ($ MILLIONS)
  • FIGURE 11. SALES OF CNT AND OTHER NANOMATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 ($ MILLIONS)
  • TABLE 31. SHIPMENTS OF CNT AND OTHER NANOMATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, THROUGH 2015 (UNIT MILLIONS)
  • TABLE 32. SALES OF CNT AND OTHER NANOMATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 ($ MILLIONS)
  • TABLE 33. SHIPMENTS OF CNT AND OTHER NANOMATERIAL - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, THROUGH 2015 (UNIT MILLIONS)
    • INTRODUCTION TO CARBON NANOTUBES (CNTS)
      • CNT.ITO Alternative?
        • SWNT Acts as a P-Type Semiconductor
      • CNT and PV Cells
    • SILVER NANOPARTICLES

CHAPTER FIVE: USAGE SCENARIOS

  • SOLAR AND PV CELLS
    • MARKET ANALYSIS
  • TABLE 34. SALES OF SOLAR/PV ENERGY TRANSPARENT ELECTRONICS COMPONENTS, THROUGH 2015 ($ MILLIONS/UNIT MILLIONS)
  • FIGURE 12. SALES OF SOLAR/PV ENERGY TRANSPARENT ELECTRONICS COMPONENTS, 2008-2015 ($ MILLIONS
  • TABLE 35. SHARE OF DOLLAR SALES OF SOLAR/PV ENERGY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (%)
  • TABLE 36. SHARE OF UNIT SALES OF SOLAR/PV ENERGY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (%)
  • TABLE 37. SHARE OF DOLLAR SALES OF SOLAR/PV ENERGY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 (%)
  • TABLE 38. SHARE OF SHIPMENT SALES OF SOLAR/PV ENERGY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 (%)
  • TABLE 39. SHARE OF DOLLAR SALES OF SOLAR/PV ENERGY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (%)
  • TABLE 40. SHARE OF SHIPMENT SALES OF SOLAR/PV ENERGY TRANSPARENT ELECTRONICS COMPONENTS TO
    • SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (%)
      • INTRODUCTION TO SOLAR CELLS
      • TRADITIONAL SOLAR CELLS
      • THIN FILM CELLS - THE PATH TOWARD ALTERNATIVES TO SILICON
        • CdTe - Inorganic Alternative to Silicon
        • Case Study - First Solar
      • ORGANIC SOLAR AND PV CELLS
      • MATERIAL DYNAMICS
    • TOUCH SURFACES
      • MARKET ANALYSIS
  • TABLE 41. SALES OF TOUCH SURFACE TRANSPARENT ELECTRONICS COMPONENTS, THROUGH 2015 ($ MILLIONS/UNIT MILLIONS)
  • FIGURE 13. SALES OF TOUCH SURFACE TRANSPARENT ELECTRONICS COMPONENTS, 2008-2015 ($ MILLIONS
  • TABLE 42. SHARE OF DOLLAR SALES OF TOUCH SURFACE TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (%)
  • TABLE 43. SHARE OF UNIT SALES OF TOUCH SURFACE TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (%)
  • TABLE 44. SHARE OF DOLLAR SALES OF TOUCH SURFACE TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 (%)
  • TABLE 45. SHARE OF SHIPMENT SALES OF TOUCH SURFACE TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 (%)
  • TABLE 46. SHARE OF DOLLAR SALES OF TOUCH SURFACE TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (%)
  • TABLE 47. SHARE OF SHIPMENT SALES OF TOUCH SURFACE TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (%)
    • INTRODUCTION TO TOUCH SURFACES
    • RESISTIVE TOUCH SURFACE
    • CAPACITIVE TOUCH SURFACE
    • MATERIAL DYNAMICS
      • Material Dynamics (Continued)
    • MAINSTREAM DISPLAYS
      • MARKET ANALYSIS
  • TABLE 48. SALES OF MAINSTREAM DISPLAY TRANSPARENT ELECTRONICS COMPONENTS, THROUGH 2015 ($ MILLIONS/UNIT MILLIONS)
  • FIGURE 14. SALES OF MAINSTREAM DISPLAY TRANSPARENT ELECTRONICS COMPONENTS, 2008-2015 ($ MILLIONS)
  • TABLE 49. SHARE OF DOLLAR SALES OF MAINSTREAM DISPLAY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (%)
  • TABLE 50. SHARE OF UNIT SALES OF MAINSTREAM DISPLAY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (%)
  • TABLE 51. SHARE OF DOLLAR SALES OF MAINSTREAM DISPLAY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 (%)
  • TABLE 52. SHARE OF SHIPMENT SALES OF MAINSTREAM DISPLAY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 (%)
  • TABLE 53. SHARE OF DOLLAR SALES OF MAINSTREAM DISPLAY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (%)
  • TABLE 54. SHARE OF SHIPMENT SALES OF MAINSTREAM DISPLAY TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (%)
    • INTRODUCTION TO DISPLAYS
    • LCD
    • ORGANIC LIGHT-EMITTING DIODE (OLED)
      • Shadow Masking Process of OLEDs Deposition
      • Other Methods of OLED Deposition
    • MATERIAL DYNAMICS
      • Material Dynamics (Continued)
    • UNCONVENTIONAL SURFACES
      • MARKET ANALYSIS
  • TABLE 55. SALES OF UNCONVENTIONAL SUBSTRATE - BASED TRANSPARENT ELECTRONICS COMPONENTS, THROUGH 2015 ($ MILLIONS/UNIT MILLIONS)
  • FIGURE 15. SALES OF UNCONVENTIONAL SUBSTRATE - BASED TRANSPARENT ELECTRONICS COMPONENTS ($ MILLIONS/
  • TABLE 56. SHARE OF DOLLAR SALES OF UNCONVENTIONAL SUBSTRATE - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (%)
  • TABLE 57. SHARE OF UNIT SALES OF UNCONVENTIONAL SUBSTRATE - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY MATERIAL, 2008-2015 (%)
  • TABLE 58. SHARE OF DOLLAR SALES UNCONVENTIONAL SUBSTRATE - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS BY END APPLICATION, 2008-2015 (%)
  • TABLE 59. SHARE OF SHIPMENT SALES OF UNCONVENTIONAL SUBSTRATE - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY END APPLICATION, 2008-2015 (%)
  • TABLE 60. SHARE OF DOLLAR SALES OF UNCONVENTIONAL SUBSTRATE - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (%)
  • TABLE 61. SHARE OF SHIPMENT SALES OF UNCONVENTIONAL SUBSTRATE - BASED TRANSPARENT ELECTRONICS COMPONENTS TO SEMICONDUCTOR DEVICE MANUFACTURERS, BY REGION, 2008-2015 (%)
    • INTRODUCTION TO UNCOVENTIONAL SURFACES
    • PRINTING: THE VITAL STRAND
      • Gravure
        • Gravure (Continued)
      • Flexographic Printing (Flexo)
        • Comco C1 Flexo Printing Equipment from Mark Andy
      • Case Study: Electronic Paper (E-paper)
    • MATERIAL DYNAMICS
      • Material Dynamics (Continued)

CHAPTER SIX: VENDOR ANALYSIS

  • THE CONVENTIONALISTS
  • THE EXPLORERS
  • SPECIFIC FUNCTIONAL PROFILES
    • MINING EXPERTS
    • FILM FABRICATORS
    • SEMICONDUCTOR MAJORS
    • DEVICE ORIGINAL EQUIPMENT MANUFACTURERS
    • MATERIAL AND PROCESS INNOVATORS
    • RESEARCH INSTITUTES AND UNIVERSITIES
  • KEY VENDOR PROFILES
    • ACREO
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • AGFA MATERIALS-GEVAERT N.V.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • CAMBRIOS TECHNOLOGIES CORP.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • CHISSO CORP.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • DAETWYLER R&D
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • DONTECH INC.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • E-INK
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • EIKOS INC.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • EVAPORATED COATINGS, INC.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • EVONIK
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • FIRST SOLAR
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • FUJIFILM DIMATIX LTD
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • H.C. STARCK CLEVIOS
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • IBM
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • INDIUM CORPORATION
      • General Background
      • Initiatives Related Transparent Electronics
      • Outlook and Analysis
    • MARK ANDY
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • MIANYANG PROCHEMA PLASTICS CO., LTD.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • MITSUI MINING AND SMELTING
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • NEC GLOBAL
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • NITTO DENKO
      • General Background
      • Initiatives Related Transparent Electronics
      • Outlook and Analysis
    • NTERA
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • OIKE & CO., LTD.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • PANIPOL LTD
      • General Background
      • Initiatives Related Transparent Electronics
      • Outlook and Analysis
    • SAMSUNG ELECTRONICS
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • SHARP
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • SHELDAHL
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • SIPIX
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • SUMITOMO METAL MINING CO., INC.
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • TOP NANOSYS
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • TOPPAN PRINTING
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • TOYOBO
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • UNIDYM
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis
    • XTREME ENERGETICS
      • General Background
      • Initiatives Related to Transparent Electronics
      • Outlook and Analysis

CHAPTER SEVEN: U.S. PATENT ANALYSIS

  • INTRODUCTION
    • TRENDS BY FUNCTIONAL CATEGORIES
    • TRENDS BY FUNCTIONAL .... (CONTINUED)
    • TRENDS BY FUNCTIONAL .... (CONTINUED)
    • TRENDS BY FUNCTIONAL .... (CONTINUED)
  • TABLE 62. U.S. PATENTS IN PROCESSES, MATERIALS, APPLICATIONS AND TECHNOLOGIES ASSOCIATED WITH TRANSPARENT ELECTRONICS BY PATENT CATEGORY, 1976 TO JUNE 2010
    • TRENDS BY YEAR
  • TABLE 63. U.S. PATENT TRENDS IN PROCESSES, MATERIALS, APPLICATIONS AND TECHNOLOGIES ASSOCIATED WITH TRANSPARENT ELECTRONICS BY YEAR OF GRANT, 1976 TO JUNE 2010 (NUMBER OF PATENTS AWARDED)
    • TRENDS BY COUNTRY
  • TABLE 64. SHARES OF U.S. PATENTS IN PROCESSES, MATERIALS, APPLICATIONS AND TECHNOLOGIES ASSOCIATED WITH TRANSPARENT ELECTRONICS BY YEAR OF GRANT, 1976 TO JUNE 2010
    • TRENDS BY ASSIGNEE
  • TABLE 65. LIST OF ASSIGNEES FOR U.S. PATENTS IN PROCESSES, MATERIALS, APPLICATIONS AND TECHNOLOGIES ASSOCIATED WITH TRANSPARENT ELECTRONICS BY YEAR OF GRANT, 1976 TO JUNE 2010
  • TABLE 65. (CONTINUED)
  • TABLE 66. ASSIGNEES OF FOUR OR MORE U.S. PATENTS IN PROCESSES, MATERIALS, APPLICATIONS AND TECHNOLOGIES ASSOCIATED WITH TRANSPARENT ELECTRONICS BY YEAR OF GRANT, 1976 TO JUNE 2010
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