1.1 Research Scope

1.2 Research Methodology

1.3 Research Methodology Explained

1.4 Predictions for Atomic Electronics Impacting Consumer Electronics Applications

1.5 Increasing Adoption of Smart Devices and Miniaturization Trend Drives Atomic Electronics Development

1.6 Superior Properties of Nanomaterials Offers Benefits for Consumer Electronics Applications

2.1 Speed and Accuracy Aspects Create New Opportunities for Electronic Devices

2.2 More Moore, 2D Electronics, Memristors, and Spintronics Trends Support Growth Opportunities

2.3 Nanotechnology Industry Supply Chain and Key Stakeholders Enabling Technology Development

3.1 CNTs, Nanowires, Graphene, Quantum Computing are Focus Areas of Technology Development

3.2 Display and Storage Applications Benefit from Superior Properties of CNTs

3.3 The Flexibility Feature of Nanowires is Useful in Bendable Displays, Sensors, and PVs

3.4 IC Interconnects is an Attractive Application of Graphene

3.5 Fast Switching and Low Power Properties of Single Atom Transistors Create Opportunities for Quantum Computing and Advanced Logic

3.6 Future of Fast Computational Applications Enabled by Quantum Computing

4.1 Government is Encouraging Commercialization and Academia is Focusing on Exploring New Products

4.2 D-Wave’s Superconducting Computer Intended for Machine Learning

4.3 Cambrios’ Silver Nanowire Coating Material Offers High Transmission and Conductivity for a Host of Applications

4.4 Nano-particle Inks with Unparalleled Conductivity for Inkjet Deposition Enables Printing with Lesser Materials Leading to Cost Savings and Cleaner Process

4.5 Cornell University’s Ultrathin Electronics Using 3-Atom-Thick Transistors will Result in Miniaturized Electronics Supporting Moore’s Law

4.6 Nano Emissive Displays will be Enabled by IBM’s CNT Transistors

4.7 Key Developers of Gas Sensors, QLED, Tetrapod Technologies

4.8 Key Developers of QD Films, NRAM

4.9 Researchers Focus on 3D Nanowires, Graphene based Visible Light Source, Self-Assembly Lithography

5.1 Technology Adoption Cycle - Strong Focus on Enhancing the Properties of CNTs for Electronics

5.2 Cost, Scalability, and Competing Technologies are Key Factors Influencing Technology Adoption

5.3 Miniaturization, Larger Memory Storage, Increased Need for Wireless Devices, and Interest for Flexible Devices Drives Innovations in Atomic Electronics

5.4 US and EU’s Nanotechnology Initiatives and APAC’s Strong Patent Leadership is Attracting Investment and Wide Scale Adoption

6.1 Display, Storage, and Sensors are Key Applications of Atomic Electronics

6.2 By 2020, Wide Scale Adoption of CNTs Anticipated in Consumer Electronics

6.3 Computers with Fast Processing are Expected to Improve the Computational Capabilities of Smart Devices by 2020

7.1 Strengthening R&D Activities can Support Commercialization of Foldable and Transparent Displays and Lighting

8.1 Patents on Manufacturing Methods and CNT Printed Circuits

8.2 Patents on Graphene Devices

8.3 Quantum Processing Related Patents

8.4 Quantum Processing and Nanowire Enabled Haptic Interface Patents

8.5 Patents on Manufacturing Methods and Atomic Scale Devices

9.1 Key Industry Contacts

9.2 Legal Disclaimer

10.1 The Frost & Sullivan Story

10.2 Value Proposition: Future of Your Company & Career

10.3 Global Perspective

10.4 Industry Convergence

10.5 What Makes Us Unique

10.6 Who is Frost & Sullivan