TABLE OF CONTENTS
Executive Summary
E.1 Key Opportunities for Quantum Dots E.1.1 Display Backlighting E.1.2 Direct-Emission QD Displays E.1.3 QD Lighting E.2 Key QD Material Suppliers to Watch E.2.1 Key Display Industry-Focused Suppliers E.2.2 Key Lighting Industry-Focused Suppliers E.2.3 Established Component Suppliers E.2.4 Original Equipment Manufacturers E.3 QD Display and Lighting Roadmaps E.3.1 QD Display Roadmap E.3.2 QD Lighting Roadmap E.4 Summary of Eight-Year Forecasts of QDs in Lighting and Displays
Chapter One: Introduction
1.1 Quantum Dots: The Key Markets 1.1.1 QD TVs Emerge, While QD-Based Smartphones and Laptops Have Yet to Gain Commercial Acceptance 1.1.2 QD-Based Solid-State Lighting on the Verge of Commercialization, but Little Impact in Other Lighting Categories 1.1.3 QD Material Suppliers Likely to Benefit in the Mid-Term 1.1.4 Technology Gaps in Current-Generation QD Materials 1.2 Objectives and Scope of this Report 1.3 Methodology and Information Sources for this Report 1.4 Plan of this Report
Chapter Tw Quantum Dot Technology Trends Impacting the Lighting and Display Markets
2.1 Important Performance Trends 2.1.1 Color Range 2.1.2 Power Consumption 2.1.3 Lifetime 2.2 Materials Options and Long-Term Materials Trends for Commercial QD Products 2.2.1 Alleviating the Shortage of QD Materials 2.2.2 Lower-Cost Fabrication Approaches for QDs 2.3 Regulations and the Environment 2.3.1 Environmental Issues and the Potential Toxicity of QDs 2.3.2 Regulatory Hurdles 2.4 Key Points from this Chapter
Chapter Three: Applications for Quantum Dots in Displays and Lighting
3.1 Display Applications for QDs 3.1.1 Key Factors Promoting and Retarding the Use of QDs in Displays 3.1.2 QD-Enhanced LED Display Backlighting 3.1.3 Complete Replacement of LEDs in TV/Monitor Backlighting 3.1.4 How will QDs Compete with OLEDs in the Display Space 3.1.5 QD Displays in the Mobile Display Space? 3.1.6 Potential Uses for QDs in Flexible Displays 3.2 Lighting Applications for QDs 3.2.1 Can QDs Make Lighting More Energy Efficient? 3.2.2 Will QDs be Used in Smart Lighting to Enhance Mood, Health, and Job Performance? 3.2.3 QDs in the LED Phosphor Sector 3.2.4 How will QDs Compete with OLED Lighting? 3.3 Key Points from this Chapter
Chapter Four: Eight-Year Forecasts of Quantum Dots in Displays and Lighting
4.1 Forecasting Methodology and Objectives 4.1.1 Scope of the Forecast 4.1.2 Pricing Assumptions 4.1.3 Other Assumptions 4.1.4 Alternative Scenarios 4.2 Forecasts for QDs in Displays by Display Type 4.2.1 QD-Backlit LCD Televisions 4.2.2 Other QD-Backlit Displays 4.2.3 Direct-Emission QD Displays 4.2.4 Other Types of QD Displays 4.3 Forecasts for QDs in Lighting by Lighting Type 4.3.1 Energy-Efficient Lighting 4.3.2 Mood-, Health- and Performance-Enhancing Lighting 4.4 Summary Forecasts for QDs in Display and Lighting Applications 4.4.1 Eight-Year Revenue Forecast for QDs in Displays and Lighting by Major Product Category 4.4.2 Eight-Year Volume Forecast for QDs in Displays and Lighting by Major Product Category 4.5 Eight Year Forecast of QD-Enhanced Products Acronyms and Abbreviations Used In this Report About the Author
List of Exhibits
Exhibit E-1: Commercial Products Launched in Association with QD Vision Exhibit E-2: Eight-Year Revenue Forecast for QDs by Major Product Category ( US $Millions) Exhibit 2-1: Key Performance Properties, Applications, and Consumer Benefits of QDs Exhibit 2-2: Key QD Technologies and Future Outlook Exhibit 2-3: Current Status and Future Trends for QD Materials and Fabrication Options Exhibit 2-4: Key Concerns of the QD Industry and Probable Solutions Exhibit 3-1: Factors Working in Favor of QD Displays Exhibit 3-2: Factors Retarding the Adoption of QD Displays Exhibit 3-3: Highlights of QD Display Technology in Commercial Setting Exhibit 3-4: QD Strategies and Established Technologies Exhibit 3-5: Technology Suitability Under Different Scenarios Exhibit 3-6: Factors Impacting the Potential of QDs to Displace OLEDs Exhibit 3-7: Notable High-Performance TV Displays Based on Nanotechnology Exhibit 3-8: Notable Small Displays Based On Nanotechnology Exhibit 3-9: Status of QD Technology in Other Notable Display Segments Exhibit 3-10: Lighting Source Comparison Exhibit 3-11: Notable QD Research in the Lighting Segment Exhibit 3-12: Lighting Technology Comparison Exhibit 4-1: Product-wise Estimation of QD Material Content Exhibit 4-2: Eight-Year Forecast of Quantum Dots Used In Backlit LCD Displays: QD Backlit LCDTVs Exhibit 4-3: Forecast of Quantum Dots Used In Smartphones Exhibit 4-4: Forecast of Quantum Dots Used In Tablets Exhibit 4-5: Forecast of Quantum Dots Used In Laptop Computers Exhibit 4-6: Forecast of QDs Used In Monitors for Desktop Computers Exhibit 4-7: Forecast of Quantum Dots Used in Large Direct-Emission Displays Exhibit 4-8: Forecast of Quantum Dots Used In Small Direct-Emission Displays Exhibit 4-9: Forecast of Quantum Dots Used In Flexible Displays Exhibit 4-10: Forecast of Quantum Dots-based Energy-Efficient Lighting Exhibit 4-11: Forecast of Quantum Dot-based Smart Lighting Exhibit 4-12: Eight-Year Revenue Forecast for QDs by Major Product Category Exhibit 4-13: Eight-Year Volume Forecast for QDs by Major Product Category (kilograms) Exhibit 4-14: Value of Display and Lighting Products Using QDs (US $Millions)
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