将来の有機エレクトロニクス製造

The Future of Organic Electronics Manufacturing

発行	NanoMarkets
出版日	2009年01月	商品コード	66966
ページ情報	英文 115 Pages
価格	US$ 995 換算 ¥ 80,067 (税抜) PDF By E-mail - Advanced User License (5 users) US$ 1,495 換算 ¥ 120,302 (税抜) PDF By E-mail - Group Version (10 users) US$ 1,795 換算 ¥ 144,443 (税抜) PDF By E-mail - Enterprise Version (Company Wide)

原文目次

Abstract

This report examines the evolving set of printing and deposition technologies that are being redesigned for an organic electronics environment; ink-jet and organic vapor deposition, for example. It also analyzes the various manufacturing technologies that organic electronics firms are utilizing now and how well they are performing. Its product coverage ranges from emerging areas such as polymer memories to relatively established areas such as OLEDs, and it is especially focused on how the lessons in the established OLED plants are being extended to organic electronics more generally. A five-year capacity forecast is included in this report that is based on breakouts by type of manufacturing technology utilized and the type of device manufactured. We also profile the activities of firms and research groups that have developed novel equipment to meet the thermal and environmental needs of organic electronics materials.

Executive Summary

E.1 Summary of Organic Manufacturing Methods
- E.1.1 Printing vs. Blanket Deposition
- E.1.2 Major Deposition Methods
- E.1.3 Major Device Categories and Requirements
E.2 Opportunities for Equipment Producers
E.3 Opportunities for Materials Suppliers
E.4 Major Equipment Suppliers
E.5 Summary of Capacity Forecasts for Organic Electronics

Chapter One: Introduction

1.1 Background to this Report
- 1.1.1 Perspective #1: Availability of Equipment
- 1.1.2 Perspective #2: Availability of Materials
- 1.1.3 Perspective #3: Device and Process Readiness
- 1.1.4 Perspective #4: Market Readiness
1.2 Objectives and Scope
1.3 Methodology
1.4 Plan of this Report

Chapter Two: Key Manufacturing Trends in Organic Electronics

2.1 Current and Future Manufacturing Technologies for Organic Electronics
- 2.1.1 Classical and Novel Vapor Deposition Techniques
- 2.1.2 Printing
- 2.1.3 Patterning Techniques
- 2.1.4 Other Relevant Techniques
- 2.1.5 Note on Crystallinity
2.2 Manufacturing Requirements by Product Category
- 2.2.1 OLED
- 2.2.2 Organic Thin Film Transistors
- 2.2.3 Organic Photovoltaics
- 2.2.4 Organic Photodetectors
2.3 Enhancement of Stability
2.4 Key Points Made in This Chapter

Chapter Three: Organic Electronics Manufacturing Technologies

3.1 Introduction
3.2 OLEDs
- 3.2.1 Evaporated Small Molecule (Kodak and UDC)
- 3.2.2 Small Molecule Solution Processing (DuPont)
- 3.2.3 Printed Polymer (CDT/Sumitomo)
- 3.2.4 Roll-to-Roll Polymer (GE)
- 3.2.5 Market Context, Competition
3.3 OTFT
- 3.3.1 Pentacene-OLED Backplane (Sony)
- 3.3.2 Pentacene-E-Paper Backplane (Polymer Vision)
- 3.3.3 Printed Polymer-E Paper Backplane (Plastic Logic)
- 3.3.4 Printed Organic RFID Chips (PolyIC, IMEC)
- 3.3.5 Other Processes (Infineon, 3M, ORFID, etc.)
- 3.3.6 Notes on Stability
- 3.3.7 Competitors to OTFTs by Target Market Application
3.4 Solar Cells
- 3.4.1 Printed Bulk Heterojunction (Konarka)
- 3.4.2 Transparent Cell Technology (Solarmer)
- 3.4.3 Printed Dye Solar Cells (G24i)
- 3.4.4 Market Risk and Competitors
3.5 Photodetectors and Sensors
- 3.5.1 X-Ray Detector (Siemens)
- 3.5.2 Printed Biodetector (NANOIDENT)
- 3.5.3 PARC
- 3.6 Specialized Materials
- 3.6.1 Substrates
- 3.6.2 Semiconductors
- 3.6.3 Barrier Materials
3.7 Equipment
- 3.7.1 Generic Equipment
- 3.7.2 Printers
3.8 Key Points Made in this Chapter

Chapter Four: Organic Semiconductor-Based Device Capacity Forecasts

4.1 Introduction and Forecasting Methodology
- 4.1.1 Forecasting Capacity
- 4.1.2 Forecasting Equipment
- 4.1.3 Changes from Previous NanoMarkets Reports
- 4.1.4 Data Sources
4.2 Eight-year Capacity Forecasts by Type of Device Produced
- 4.2.1 Organic Light Emitting Diodes (OLEDs)
- 4.2.2 Organic Thin-Film Transistors (OTFTs)
- 4.2.3 Organic Photovoltaics (OPVs)
- 4.2.4 Organic Photodetectors and Sensors (OPDs)
4.3 Eight-year Equipment Forecasts by Type of Device Produced
- 4.3.1 Methodology
- 4.3.2 OLED
- 4.3.3 OTFT
- 4.3.4 OPV
- 4.3.5 OPD
4.4 Eight-year Capacity Forecasts by Type of Manufacturing Equipment Used
Abbreviations and Acronyms Used in This Report

List of Exhibits

Exhibit E-1: Worldwide Organic Manufacturing Capacity (million sq.meters/yr)
Exhibit E-2: Worldwide Organic Manufacturing Equipment Outlay ($ millions/yr)
Exhibit 4-1: Worldwide OLED Capacity
Exhibit 4-2: Worldwide Capacity for OTFT-Based Backplanes
Exhibit 4-3: Worldwide Capacity for OTFT-Based RFID
Exhibit 4-4: Worldwide Capacity for OTFT-Based Backplanes and RFID
Exhibit 4-5: Worldwide Capacity for OPV- and DSC- Based Solar
Exhibit 4-6: Worldwide OPD Device Capacity
Exhibit 4-7: OLED Display Process Comparison*
Exhibit 4-8: Unit Operations Capacity Costs (US$ per square meter per year annual capacity)
Exhibit 4-9: Capacity Demand for Benchmark Devices by Unit Operation
Exhibit 4-10: Equipment Costs by Device (US$ per square meter per annual capacity)
Exhibit 4-11: OLED Display Capital Expenditure
Exhibit 4-12: OLED Lighting Capital Expenditure
Exhibit 4-13: OTFT-based Backplanes Capital Expenditure
Exhibit 4-14: OTFT-based RFID Capital Expenditure
Exhibit 4-15: Worldwide OPV and DSC Capital Expenditure
Exhibit 4-16: Worldwide Capacity by Equipment Type (Millions m2/yr)
Exhibit 4-17: Worldwide Capital Expenditure by Equipment Type ($ Millions/yr)
Exhibit 4-18: Worldwide Organic Manufacturing Capacity (million square meters/yr)
Exhibit 4-19: Worldwide Organic Manufacturing Equipment Outlay ($ millions/yr)