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Global Market for Nanoelectronics Materials and Devices, 2019 Report
[March 19, 2019]

Global Market for Nanoelectronics Materials and Devices, 2019 Report


DUBLIN, March 19, 2019 /PRNewswire/ -- The "The Global Market for Nanoelectronics: Materials and Devices" report has been added to ResearchAndMarkets.com's offering.

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To meet these market demands, power and functionality needs to improve hugely, while being cost effective, driving demand for nanomaterials that will allow for novel architectures, new types of energy harvesting and sensor integration. As well as allowing for greater power, improved performance and bandwidth, decreased size and cost, improved flexibility and better thermal management, the exploitation of nanomaterials allows for new device designs, new package architectures, new network architectures and new manufacturing processes. This will lead to greater device integration and density, and reduced time to market.

Semiconducting inorganic nanowires (NWs), carbon nanotubes, nanofibers, nanofibers, quantum dots, graphene and other 2D materials have been extensively explored in recent years as potential building blocks for nanoscale electronics, optoelectronics and photonics components, coatings and devices.

The electronics industry will witness further significant change and growth in the next decade driven by:

  • Scaling
  • Growth of mobile wireless devices
  • Huge growth in the Internet of Things (IoT)
  • Development of flexible and stretchable form functions
  • Data, logic and applications moving to the Cloud
  • Ubiquitous electronics.

The report covers nanotechnology and nanomaterials related to the following markets and applications:

  • Post-Silicon Materials and Devices
  • Flexible, Stretchable and Printable Electronics
  • Conductive inks
  • Wearable health monitoring
  • Electronic textiles
  • HMI automotive displays
  • Displays
  • Transistors
  • Integrated Circuits
  • Other components
  • Memory Devices
  • Conductive and waterproof electronics coatings
  • Photonics
  • Lighting
  • Solar cells.

Key Topics Covered:

1 RESEARCH METHODOLOGY

2 EXECUTIVE SUMMARY
2.1 THE EVOLUTION OF ELECTRONICS
2.1.1 The wearables revolution
2.1.2 Flexible, thin, and large-area form factors
2.1.3 From rigid to flexible and stretchable
2.1.4 Organic and printed electronics
2.1.5 New conductive materials
2.2 MARKET DRIVERS AND TRENDS
2.2.1 Scaling
2.2.2 Growth of mobile wireless devices
2.2.3 Internet of things
2.2.4 Data, logic and applications moving to the Cloud
2.2.5 Ubiquitous electronics
2.2.5.1 ITO replacement for flexible electronics
2.2.5.2 Growth in the wearable electronics market
2.2.5.3 Growth in wearable health monitoring
2.2.5.4 Growth of HMI and display systems in the automotive industry
2.2.5.5 Touch technology requirements
2.2.6 Nanomaterials for new device design and architectures
2.2.7 Carbon and 2D nanomaterials
2.2.8 Industrial collaborations

3 NANOMATERIALS
3.1 Properties of nanomaterials
3.2 Categorization

4 NANOMATERIALS IN ELECTRONICS
4.1 ALUMINIUM OXIDE NANOPARTICLES
4.1.1 Properties
4.1.2 Applications in nanoelectronics
4.2 ANTIMONY TIN OXIDE NANOPARTICLES
4.2.1 Properties
4.2.2 Applications in nanoelectronics
4.3 MULTI-WALLED CARBON NANOTUBES
4.3.1 Properties
4.3.2 Applications in nanoelectronics
4.4 CONDUCTIVE POLYMERS
4.4.1 Properties
4.4.1.1 PDMS
4.4.1.2 PEDOT: PSS
4.4.2 Applications in nanoelectronics
4.5 CERIUM OXIDE NANOPARTICLES
4.5.1 Properties
4.5.2 Applications
4.6 COPPER INK AND NANOPARTICLES
4.6.1 Silver-coated copper
4.6.2 Copper nanoparticle ink
4.7 GOLD NANOPARTICLES
4.7.1 Properties
4.7.2 Applications
4.8 FULLERENES
4.8.1 Properties
4.8.2 Applications
4.9 GRAPHENE
4.9.1 Properties
4.9.2 Applications in nanoelectronics
4.10 IRON OXIDE NANOPARTICLES
4.10.1 Properties
4.10.2 Applications
4.11 METAL MESH
4.11.1 Properties
4.11.2 Applications in nanoelectronics
4.12 NANOCELLULOSE
4.12.1 Properties
4.12.2 Applications in nanoelectronics
4.12.2.1 Nanopaper
4.12.2.2 Paper memory
4.13 NANODIAMONDS
4.13.1 Properties
4.13.2 Applications
4.14 NANOFIBERS
4.14.1 Properties
4.14.2 Applications in nanoelectronics
4.15 NANOWIRES
4.15.1 Properties
4.15.2 Applications
4.16 NICKEL NANOPARTICLES



4.16.1 Properties
4.16.2 Applications
4.17 QUANTUM DOTS
4.17.1 Properties
4.17.2 Applications in nanoelectronics
4.18 SILICON OXIDE NANOPARTICLES
4.18.1 Properties
4.18.2 Applications
4.19 SINGLE-WALLED CARBON NANOTUBES
4.19.1 Properties
4.19.2 Applications in nanoelectronics
4.20 SILVER INK
4.20.1 Silver flake
4.20.2 Silver nanoparticle ink
4.20.2.1 Conductivity
4.20.3 Silver nanowires
4.20.4 Prices
4.20.4.1 Cost for printed area
4.21 ZIRCONIUM OXIDE NANOPARTICLES
4.21.1 Properties
4.21.2 Applications in nanoelectronics
4.22 GRAPHENE AND CARBON QUANTUM DOTS
4.22.1 Properties
4.22.2 Applications in nanoelectronics
4.23 YTTRIUM OXIDE NANOPARTICLES
4.23.1 Properties
4.23.2 Applications in nanoelectronics
4.24 CARBON ONIONS
4.24.1 Properties
4.24.2 Applications in nanoelectronics
4.25 2D MATERIALS
4.25.1 Black phosphorus/Phosphorene
4.25.1.1 Properties
4.25.1.2 Applications in electronics
4.25.2 Graphitic carbon nitride
4.25.2.1 Properties
4.25.2.2 Applications in electronics
4.25.3 Germanene
4.25.3.1 Properties
4.25.3.2 Applications in electronics
4.25.4 Graphdiyne
4.25.4.1 Properties
4.25.4.2 Applications in electronics
4.25.5 Graphane
4.25.5.1 Properties
4.25.5.2 Applications in electronics
4.25.6 Hexagonal boron nitride
4.25.6.1 Properties
4.25.6.2 Applications in electronics
4.25.7 Molybdenum disulfide
4.25.7.1 Properties
4.25.7.2 Applications in electronics
4.25.8 Rhenium disulfide and diselenide
4.25.8.1 Properties
4.25.8.2 Applications in electronics
4.25.9 Silicene
4.25.9.1 Properties
4.25.9.2 Applications in electronics
4.25.10 Stanene/tinene
4.25.10.1 Properties
4.25.10.2 Applications in electronics
4.25.11 Tungsten diselenide
4.25.11.1 Properties
4.25.11.2 Applications in electronics
4.25.12 Antimonene
4.25.12.1 Properties
4.25.12.2 Applications in electronics
4.25.13 Indium selenide
4.25.13.1 Properties
4.25.13.2 Applications in electronics

5 MARKET ANALYSIS
5.1 CONDUCTIVE INKS
5.1.1 MARKET DRIVERS AND TRENDS
5.1.2 CONDUCTIVE INK TYPES
5.1.3 PRINTING METHODS
5.1.3.1 Nanoparticle ink
5.1.4 Sintering
5.1.5 Conductive Filaments
5.1.6 Conductive films, foils and grids
5.1.7 Inkjet printing In flexible electronics
5.1.8 APPLICATIONS
5.1.8.1 Current products
5.1.8.2 Advanced materials solutions
5.1.8.3 RFID
5.1.8.4 Smart labels
5.1.8.5 Smart clothing
5.1.8.6 Printable sensors
5.1.8.7 Printed batteries
5.1.8.8 Printable antennas
5.1.8.9 In-mold electronics
5.1.8.10 Printed transistors
5.1.9 GLOBAL MARKET SIZE
5.1.10 COMPANY PROFILES
5.2 WEARABLE NANOELECTRONICS, SENSORS AND ELECTRONIC TEXTILES
5.2.1 MARKET DRIVERS AND TRENDS
5.2.2 APPLICATIONS
5.2.2.1 Current state of the art
5.2.2.2 Advanced materials solutions
5.2.2.3 Transparent conductive films
5.2.2.4 Carbon nanotubes
5.2.2.5 Double-walled carbon nanotubes
5.2.2.6 Graphene
5.2.2.7 Silver nanowires
5.2.2.8 Nanocellulose
5.2.2.9 Copper nanowires
5.2.2.10 Nanofibers
5.2.2.11 Wearable sensors
5.2.2.12 Advanced materials solutions
5.2.2.13 Wearable gas sensors
5.2.2.14 Wearable strain sensors
5.2.2.15 Wearable tactile sensors
5.2.2.16 Industrial monitoring
5.2.2.17 Military
5.2.3 GLOBAL MARKET SIZE
5.2.3.1 Transparent conductive electrodes
5.2.4 COMPANY PROFILES
5.3 MEDICAL AND HEALTHCARE ELECTRONIC TEXTILES AND WEARABLES
5.3.1 MARKET DRIVERS AND TRENDS
5.3.2 APPLICATIONS
5.3.2.1 Current state of the art
5.3.2.2 Advanced materials solutions
5.3.2.3 Printable, flexible and stretchable health monitors.
5.3.3 GLOBAL MARKET SIZE
5.3.4 COMPANY PROFILES
5.4 ELECTRONIC TEXTILES AND APPAREL
5.4.1 MARKET DRIVERS AND TRENDS
5.4.2 APPLICATIONS
5.4.2.1 Current state of the art
5.4.2.2 Advanced materials solutions
5.4.3 GLOBAL MARKET SIZE
5.4.4 COMPANY PROFILES
5.5 ENERGY HARVESTING TEXTILES
5.5.1 MARKET DRIVERS AND TRENDS
5.5.2 APPLICATIONS
5.5.2.1 Current state of the art
5.5.2.2 Advanced materials solutions
5.5.3 GLOBAL MARKET SIZE
5.5.4 COMPANY PROFILES
5.6 HDTVS AND OTHER DISPLAYS
5.6.1 MARKET DRIVERS AND TRENDS
5.6.2 APPLICATIONS
5.6.2.1 Transparent electrodes
5.6.2.2 Automotive HMI and displays
5.6.2.3 Quantum dot displays
5.6.2.4 LCDS vs. OLEDs vs. QD-LCDs/QLEDs
5.6.2.5 QD-LCD TVs/QLEDs
5.6.2.6 Micro-LEDs
5.6.2.7 Synthesis and manufacturing
5.6.2.8 On-edge
5.6.2.9 On-surface
5.6.2.10 QD colour filter
5.6.2.11 On-chip
5.6.2.12 Active Matrix Quantum-dot Light Emitting Diode
5.6.2.13 QD Glass LGP
5.6.2.14 Quantum dot/OLED hybrid
5.6.2.15 Quantum rods
5.6.2.16 Quantum converters with red phosphors
5.6.2.17 Electroluminescent QD displays
5.6.2.18 Flexible displays
5.6.3 GLOBAL MARKET SIZE
5.6.3.1 OLED market
5.6.3.2 QD-TV unit sales 2016-2030
5.6.3.3 QD Monitor Unit sales 2015-2030
5.6.4 COMPANY PROFILES
5.7 TRANSISTORS, INTEGRATED CIRCUITS AND OTHER COMPONENTS
5.7.1 MARKET DRIVERS AND TRENDS
5.7.2 APPLICATIONS
5.7.2.1 Nanowires
5.7.2.2 Carbon nanotubes
5.7.2.3 Graphene
5.7.2.4 Other 2D Materials
5.7.2.5 Quantum dots
5.7.3 GLOBAL MARKET SIZE
5.7.5 COMPANY PROFILES
5.8 MEMORY DEVICES
5.8.1 MARKET DRIVERS AND TRENDS
5.8.2 APPLICATIONS
5.8.2.1 Graphene and other 2D materials
5.8.2.2 Magnetic nanoparticles
5.8.3 GLOBAL MARKET SIZE
5.8.4 MARKET CHALLENGES
5.8.5 COMPANY PROFILES
5.9 ELECTRONICS COATINGS
5.9.1 MARKET DRIVERS AND TRENDS
5.9.2 APPLICATIONS
5.9.2.1 Waterproof nanocoatings
5.9.2.2 Anti-fingerprint nanocoatings
5.9.2.3 Anti-reflection nanocoatings
5.9.3 GLOBAL MARKET SIZE
5.9.4 COMPANY PROFILES
5.10 SOLAR
5.10.1 MARKET DRIVERS AND TRENDS
5.10.2 APPLICATIONS
5.10.2.1 ITO replacement
5.10.2.2 Nanomaterials in solar cells
5.10.2.3 Nanocrystalline thin-film layers
5.10.2.4 TiO2 nanoparticles in dye solar cells
5.10.2.5 Fullerenes
5.10.2.6 Graphene
5.10.2.7 Nanocoatings
5.10.2.8 Quantum wells
5.10.2.9 Metal nanoparticle plasmonic solar cells
5.10.2.10 Polymer-nanowire based hybrid solar cell
5.10.2.11 Quantum dots
5.10.3 GLOBAL MARKET SIZE
5.10.4 COMPANY PROFILES
5.11 LIGHTING
5.11.1 MARKET DRIVERS AND TRENDS
5.11.2 APPLICATIONS
5.11.2.1 LED lighting
5.11.2.2 Horticultural lighting
5.11.2.3 Flexible OLED lighting
5.11.2.4 Quantum dot lighting
5.11.3 GLOBAL MARKET SIZE
5.11.4 COMPANY PROFILES
5.12 PHOTONICS
5.12.1 MARKET DRIVERS AND TRENDS
5.12.2 APPLICATIONS
5.12.2.1 Si photonics versus graphene.
5.12.2.2 Optical modulators
5.12.2.3 Photodetectors
5.12.2.4 Plasmonics
5.12.2.5 Fiber lasers
5.12.3 GLOBAL MARKET SIZE
5.12.4 COMPANY PROFILES
5.13 SENSORS
5.13.1 MARKET DRIVERS AND TRENDS
5.13.2 APPLICATIONS
5.13.2.1 Gas sensors
5.13.2.2 Infrared sensors
5.13.2.3 Electrochemical and gas sensors
5.13.2.4 Pressure sensors
5.13.2.5 Biosensors
5.13.2.6 Optical sensors
5.13.2.7 Humidity sensors
5.13.2.8 Strain sensors
5.13.2.9 Acoustic sensors
5.13.2.10 Wireless sensors
5.13.2.11 Surface enhanced Raman scattering
5.13.2.12 Image sensors
5.13.3 GLOBAL MARKET SIZE AND
5.13.4 COMPANY PROFILES


6 References

Companies Mentioned

  • BITalino
  • BeBop Media
  • Bosch
  • C2Sense
  • Canatu
  • GraphWear
  • KhepriCoat
  • LECTUM
  • LG or
  • L'Oreal skin patch.
  • Mimo
  • Panasonic
  • Samsung
  • Softceptor
  • StretchSense Energy Harvesting Kit.
  • TempTraQ
  • Tesla

For more information about this report visit https://www.researchandmarkets.com/research/f75hfn/global_market_for?w=5

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