觸控式螢幕感測器用透明導體市場：2012年

觸控式螢幕感測器用透明導體市場：2012年 是由出版商NanoMarkets在2011年11月所出版的。 這份英文市場調查報告書包含74 Pages 價格從美金2495起跳。

簡介

近年觸控式螢幕感測器於透明導體市場中地位越來越重要，並有成為眾多製造商於本市場主要新收入來源之趨勢。在Apple等各公司智慧手機及平板電腦快速普及同時，觸控式螢幕市場也急速成長。然而其市場規模卻稱不上可支撐所有參與本市場製造商之營收。此外，觸控式螢幕感測器市場尚有接受新材料及方式之空間，製造商成功開發與傳統不同之材料而獲得成果的案例也不在少數。

本報告為，分析觸控式螢幕感測器用透明導體需求趨勢，並匯整透明導體製造商拓展市場收益之策略、2019年止收益及出貨量預測、主要企業目前採用策略之評估等，以下列摘要形式闡述。

實施概要

• 觸控式螢幕感測器用透明導體之實際市場規模
  • 觸控式螢幕市場之快速成長
  • 觸控式螢幕市場之極限
  • 觸控式螢幕感測器用透明導體製造商面臨之新的策略挑戰
• 應關注策略及企業
  • Cambrios：使用奈米銀之產品拓展業績
  • 3M
  • 與本市場相關之奈米管製造商
  • 銀類透明導體製造商
• 各種觸控式感測器市場中透明導體之市場機會
  • 模擬電阻
  • 投射式電容
• 觸控式螢幕感測器用透明導體製造商之供應鏈商機
• 今後８年間觸控式螢幕感測器用透明導體市場之預測摘要

第1章 簡介

• 本調查報告背景
  • 透明導體業界之於觸控式螢幕感測器市場
  • 市場焦點變化及供應鏈
• 本調查報告之目的及範圍
• 本調查報告之方式
• 本調查報告之企圖

第2章 觸控式螢幕市場中透明導體之可能性

• 隨顯示器產業發展對觸控式螢幕感測器用透明導體要求條件之變化
  • 產品趨勢：iPad之出現及觸控式螢幕之角色越來越重要
  • 電子紙、OLED、下一代顯示器
  • 觸控式感測器用透明導體市場中將成為重要客戶之LCD製造商
• 模擬電阻觸控式螢幕之市場
  • 使用於模擬電阻觸控式螢幕之透明導體必要條件
• 投射式電容觸控式螢幕之市場
  • 使用於投射式電容觸控式螢幕之透明導體必要條件
• 其他類型之觸控式螢幕感測器：內嵌式技術等
  • 內嵌式技術
  • 表面電容技術
  • 其他技術
• 中國製造商開發技術之崛起
• 本章要點

第3章 透明導體：材料觸控式螢幕市場

• 銦錫氧化物(ITO)及其他材料
  • 導入市場中各種透明導體之比較
• ITO、鍍膜、觸控式螢幕之市場
• 重要性愈增之ITO以外氧化導電體材料之角色
  • 錫氧化物
  • 氧化鋅
• 觸控式螢幕用導電聚合物
• 奈米材料及觸控式螢幕
  • 銀類奈米材料
  • 碳奈米管類材料
• 其他材料
  • 萊斯大學開發之石墨烯材料
  • 其他奈米材料
• 本章要點

第4章 觸控式螢幕感測器用透明導體市場今後8年之預測

• 預測方式
  • 顯示器類型
  • 觸控式螢幕之技術
  • 材料及各市場區隔之普及情形
  • 左右透明導體材料價格之先決條件
  • 其他資訊來源
• 觸控式螢幕市場今後8年之預測
• 觸控式螢幕技術類型別內容
• 透明導體之類型別內容
  • 今後ITO仍將具有優勢
  • 觸控式螢幕市場之商機有減少趨勢
  • 各類觸控式感測器市場之透明導體銷售
• 本報告預測及各種情況之可信度

首字母大寫及縮寫

關於作者

圖表

目錄

Abstract

The touch-screen sensor market has emerged as a key market for the novel transparent conductors. Many of the suppliers of these materials have targeted the touch screen market as a source of new revenues and for a number of reasons. Thanks to Apple, this market is viewed universally as a fast growth customer for transparent conductors, while at the same time the touch sector is said by many to be more open to adoption of new materials and processes than the mainstream display industry.

NanoMarkets has been covering the transparent conductor market for six years now. We largely agree with the above analysis, but see it as incomplete. While providing much-valued early revenues for transparent conductor firms, we believe that the touch sensor market will remain too small to support all of those suppliers vying to sell alternative transparent conductor materials into this market. And, although there have been a number of notable successes by suppliers of novel materials into the touch sector, ITO continues to do a good job in much of this sector.

With this in mind, NanoMarkets has put together this report analyzing the demand for transparent conductors in the touch-screen business and showing how strategies for developing this market can be developed for maximum benefit to the supplier of transparent conductor. This report includes an eight-year forecast of revenues and volume shipments of transparent conductors into the touch screen sensor market as well as an assessment of the current strategies of the leading firms active in this sector.

Table of Contents

Executive Summary

• E.1 Transparent Conductors in Touch: Markets May Not As Big Some People Think!
  • E.1.1 The Touch Market Explosion
  • E.1.2 The Limits of Touch as a Market Driver for Transparent Conductors
  • E.1.3 Emerging Strategic Issues for Firms Selling Transparent Conductors into the Touch-Screen Sector
• E.2 Current Strategies and Firms to Watch
  • E.2.1 Cambrios: Success in the Touch Market with Nanosilver
  • E.2.2 3M
  • E.2.3 Some Nanotube Ink Firms of Interest
  • E.2.4 Other Silver-Based Transparent Conductor Firms
• E.3 Opportunities for Transparent Conductors by Type of Touch Sensor
  • E.3.1 Analog Resistive Opportunities
  • E.3.2 Projected Capacitive Opportunities
• E.4 Supply Chain Opportunities for Transparent Conductor Firms Serving the Touch Sector
• E.5 Summary of Eight-Year Forecasts of Transparent Conductors for Touch Sensors

Chapter One: Introduction

• 1.1 Background to this Report
  • 1.1.1 Touch-Sensor Markets for Transparent Conductors: The Real Story
  • 1.1.2 Transparent Conductors in Touch: Shifting Market Priorities and Supply Chains
• 1.2 Objective and Scope of this Report
• 1.3 Methodology of this Report
• 1.4 Plan of this Report

Chapter Two: Opportunities for Transparent Conductors in Touch-Screen Markets

• 2.1 Impact of Recent Display Industry Developments on Transparent Conductor Requirements for Touch Displays
  • 2.1.1 Product Trends: Of iPads and the Growing Role of Touch
  • 2.2.2 E-Paper, OLEDs and Next-Generation Displays
  • 2.1.3 The Growing Importance of the LCD Manufacturers as Potential Customers for Transparent Conductors for Touch Sensors
• 2.2 Analog Resistive Markets: Not Dead Yet
  • 2.2.1 Requirements for Transparent Conductors in Analog Resistive Technology
• 2.3 Projected Capacitive Markets: Exciting Prospects for Transparent Conductor Makers?
  • 2.3.1 Requirements for Transparent Conductors in Pro Cap Technology
• 2.4 Other Types of Touch-Screen Sensor: In-Cell Technologies and Other
  • 2.4.1 In-Cell Technologies
  • 2.4.2 Surface Capacitive Technologies
  • 2.4.3 Other Touch Technologies
• 2.5 The Rise of Chinese Technology
• 2.6 Key Points from this Chapter

Chapter Three: Transparent Conductors: Materials and Touch

• 3.1 Whose Market is it Really? ITO or Alternatives in the Touch Sector
  • 3.1.1 Comparisons of Available Transparent Conductors
• 3.2 ITO, Coated Films and the Touch Market
• 3.3 The Growing Role for Alternative Transparent Conductive Oxides in the Touch Sector
  • 3.3.1 Tin Oxide and Touch
  • 3.3.2 Zinc Oxide and Touch
• 3.4 Conductive Polymers in Touch Displays
• 3.5 Nanomaterials and Touch Displays
  • 3.5.1 Silver-based Nanomaterials
  • 3.5.2 Carbon Nanotube-Based Materials
• 3.6 Other Alternative Materials
  • 3.6.1 Graphene at Rice University
  • 3.6.2 Other Nanometallic Materials
• 3.7 Key Points from this Chapter

Chapter Four: Eight-Year Forecasts of Transparent Conductors in Touch Display Sensor Markets

• 4.1 Forecasting Methodology
  • 4.1.1 Display Types Covered in the Forecast
  • 4.1.2 Touch Technologies Covered in the Forecast
  • 4.1.3 Materials Covered and the Penetration by Sector
  • 4.1.4 Transparent Conductor Pricing Assumptions
  • 4.1.5 Other Sources of Information
• 4.2 Eight-Year Forecasts of the Underlying Touch-Display Market
• 4.3 Breakout by Type of Touch Technology
• 4.4 Breakouts by Type of Transparent Conductors Used
• 4.5 Breakouts by Type of Transparent Conductors Used
  • 4.5.1 Continuing Dominance of ITO Throughout the Forecast Period
  • 4.5.2 Touch Opportunity for Transparent Conductors May Decline
  • 4.5.3 Transparent Conductor Sales by Type of Touch Sensor
• 4.6 Levels of Confidence in Our Existing Forecasts and Alternative Scenarios

• Acronyms and Abbreviations Used In this Report
• About the Author

List of Exhibits

• Exhibit E-1: Non-ITO Transparent Conductors and its Main Competitors: A Guide
• Exhibit 2-1: Touch-Screen Technologies by Size and Multi-Touch Functionality
• Exhibit 2-2: Touch-in-Pixel Technologies
• Exhibit 3-1: Important Parameters for Transparent Conductors Used for Touch-Screen Sensors
• Exhibit 3-2: Transparency of Transparent Conductive Material Types
• Exhibit 3-3: Sheet Resistance of Transparent Conductive Material Types
• Exhibit 3-4: Flexibility of Transparent Conductive Material Types
• Exhibit 3-5: Selected Projects and Collaborations in the CNT TC Space
• Exhibit 4-1: Cost of Transparent Conductive Material Types - 2012
• Exhibit 4-2: Forecast of Transparent Conductive Materials Requirements in Touch-Screen Display Sensors
• Exhibit 4-3: Forecast of Transparent Conductive Materials Requirements in Touch-Screen Display Sensors by Type of Technology (Millions of Square Meters of Substrate)
• Exhibit 4-4: Forecast of Transparent Conductive Materials by Type in Touch-Screen Display Sensors: Pro Cap
• Exhibit 4-5: Forecast of Transparent Conductive Materials by Type in Touch-Screen Display Sensors: Analog Resistive
• Exhibit 4-6: Forecast of Transparent Conductive Materials by Type in Touch-Screen Display Sensors: Other
• Exhibit 4-7: Forecast of Transparent Conductive Materials by Type in Touch-Screen Display Sensors: All Markets ($ Million)
• Exhibit 4-8: Forecast of Transparent Conductive Materials by Type in Touch-Screen Display Sensors: by Type of Sensor ($ Million)

Press Release

透明傳導體和觸控式螢幕：替代ITO的必要性

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