Contents:

Executive Summary E.1 Major Opportunities in Dielectrics for TOP Electronics E.1.1 On the Materials Side E.1.2 On Applications E.2 Key Firms to Watch for Innovations in Dielectrics E.2.1 Key Firms E.2.2 Key Research Institutions E.3 Summary of Market Forecasts Chapter One: Introduction 1.1 Background to this Report 1.1.1 The Rise of New Materials 1.1.2 Organic Material Sets and Organic CMOS 1.1.3 Organic Thin-Film Transistors 1.1.4 Organic MemoryAlive and Well 1.1.5 Displays and Lighting 1.2 Methodology and Scope of this Report 1.3 Plan of this Report Chapter Two: Applications for Dielectrics in Thin-Film, Organic and Printed Electronics 2.1 Types of Dielectrics 2.1.1 Gate Dielectrics 2.1.2 Isolation Dielectrics 2.1.3 Intermetal/Interlayer Dielectrics 2.2 Dielectrics in TFTs and OTFTs 2.2.1 OTFTs Device Geometries 2.2.2 Commercial Activities 2.2.3 Research Developments 2.3 Dielectrics in Printed Memories 2.3.1 Commercial Activities 2.3.2 Research Developments 2.4 Dielectrics in Printed Silicon Devices 2.5 Dielectrics in Display and Lighting Devices 2.6 Dielectrics Materials on Flexible Substrates 2.7 Holes and Other Problems 2.8 Key Points in this Chapter 2.8.1 Gate Dielectrics 2.8.2 OTFTs/TFTS 2.8.3 Organic Memory 2.8.4 Printed Silicon Devices 2.8.5 Display and Lighting Devices 2.8.6 Flexible Substrates 2.8.7 Holes and Other Problems Chapter Three: Dielectric Materials 3.1 The Role of Dielectrics in Emerging Materials Sets 3.1.1 Commercial Developments 3.1.2 R&D Activities 3.2 Dielectric Materials and Manufacturing/Deposition Issues 3.2.1 Printing Organic Materials 3.2.2 Evaporation Techniques 3.2.3 Deposition Issues 3.2.4 Self-Alignment 3.3 Silicon Dioxide in TOP Electronics 3.4 Metal Oxides and Nitrides 3.4.1 SAMs 3.4.2 Aluminum, Lanthanum and Other Oxides 3.4.3 Barium Titanate Nanocomposite 3.4.4 Hafnium Oxide 3.4.5 HafSOx 3.4.6 MoO2 3.4.7 Zirconia 3.5 Polymeric Dielectrics 3.5.1 Commercial Developments 3.5.2 R&D Activities 3.5.3 Inorganic-Organic Hybrid Polymers 3.6 Novel High-k Materials and their Potential Role in TOP Electronics 3.7 Dielectric Inks 3.8 Use of Nanomaterials 3.8.1 Composite Nanomaterials 3.8.2 Self-Assembled Nanodielectrics 3.8.3 Single Walled Carbon Nanotubes (SWNTs) 3.9 Key Points in this Chapter 3.9.1 Manufacturing and Deposition Processes 3.9.2 Deposition Issues 3.9.3 Emerging Materials Sets 3.9.4 Commercial Developments 3.9.5 R&D Activities 3.9.6 Silicon Dioxide in TOP Electronics 3.9.7 Metal Oxides and Nitrides 3.9.8 Polymeric Dielectrics 3.9.9 Novel high-k Materials 3.9.10 Dielectric Inks 3.9.11 Nanomaterials Chapter Four: Eight-Year Forecasts of Dielectrics for TOP Electronics 4.1 Forecast Methodology 4.2 Dielectrics in Conventional TFT Display Backplanes 4.3 Dielectrics in OTFT Display Backplanes 4.4 Dielectrics in OTFT-Based RFID 4.5 Dielectrics in OTFT-Based Smartcards 4.6 Dielectrics for Printed Silicon Devices 4.7 Dielectrics for OLED Displays and Lighting 4.8 Dielectrics for Printed and Organic Sensors 4.9 Dielectrics for Solar Panels 4.10 Summary of TOP Dielectrics Market by Material Type 4.11 Summary of TOP Dielectrics Market by Application Acronyms and Abbreviations Used in this Report List of Exhibits Exhibit E-1 Common Dielectric Materials used in TOP Electronics Exhibit E-2 Emerging Material Sets for Printed CMOS Exhibit E-3 Organic Materials Used in Memory Applications Exhibit E-4 Summary of TOP Dielectrics Market by Material Type Exhibit 2-1 TOP Dielectric Applications by Developer Exhibit 2-2 Pentacene OFET using a PVA Gate Dielectric Exhibit 2-3 Electrical Parameters for Pentacene OTFTs Exhibit 2-4 OTFTs Using SAM Dielectrics Exhibit 2-5 Properties of Pentacene OTFTs using Si3N4 and SiO2 Dielectrics Exhibit 2-6 Properties of Pentacene OTFTs and Dielectrics Treated with HMDS and OTS Exhibit 2-7 Flexible Inorganic-Organic TFTs Exhibit 2-8 Dielectrics Used in Memory Applications Exhibit 2-9 Properties of BiOFET memory with PCBM Exhibit 3-1 Common Dielectric Materials used in TOP Electronics Exhibit 3-2 Organic Printed Material Sets Exhibit 3-3 Emerging Material Sets for Printed CMOS Exhibit 3-4 Pentacene and F16CuPc TFTs with SAM dielectric on PEN Substrate Exhibit 3-5 Solution Processable Dielectrics for TFTs Exhibit 3-6 Comparison of TOP Electronics and Conventional Silicon-based IC Manufacturing Exhibit 3-7 Organic Dielectrics: How Materials and Production Technologies are Matched Exhibit 3-8 Characteristics of Printing Technologies Used for TOP Dielectrics Exhibit 3-9 Selected Inkjet Equipment Suppliers for TOP Electronics Exhibit 3-10 BASF's Polymer Dielectric Material Developments Exhibit 3-11 BASF Sepiolid TOP Materials Exhibit 3-12 OTFTs Prepared Using Thermoset Based Dielectrics Exhibit 3-13 Crosslinked Polymer Blends for TFTs Exhibit 3-14 PolyApply's Hybrid Dielectric Material Properties Exhibit 3-15 High Dielectric Materials used in TOP Electronics Exhibit 3-16 Dielectric Inks Exhibit 3-17 Selected Dielectric Inks Exhibit 3-18 Bulk Dielectric for Various Titanates Exhibit 3-19 Self Assembled Nanodielectrics for OTFTs Exhibit 4-1 Dielectrics in Conventional TFTs for Display Backplanes Exhibit 4-2 Dielectrics in OTFT Backplanes Exhibit 4-3 Dielectrics in OTFT-Based RFID Exhibit 4-4 Dielectrics in OTFT/Organic Memory-Based Smartcards Exhibit 4-5 Dielectrics in Printed Silicon Devices Exhibit 4-6 Dielectrics in OLED Displays and Lighting (excludes backplanes) Exhibit 4-7 Dielectrics in Organic and Printed Sensors Exhibit 4-8 Dielectrics in Solar Panels Exhibit 4-9 Summary of TOP Dielectrics Market by Material Type Exhibit 4-10 Summary of TOP Dielectrics Market by Application