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The Global Market for Metamaterials and Metasurfaces 2024-2034

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ksm 23.10.17

Metamaterials applications will represent a multi-billion dollar market within the next decade with product advances in radar and lidar for autonomous vehicles, telecommunications antenna, 6G networks, coatings, vibration damping, wireless charging, noise prevention and more.

Metamaterials are artificially engineered structures with exceptional material properties (acoustic, electrical, magnetic, optical, etc.). They comprise arrays of resonators that manipulate electromagnetic waves or sound in ways not normally found in nature. Possessing customized dielectric properties and tunable responses they allow for excellent flexibility in a range of applications, their use enabling the manipulation of fields and waves at a subwavelength scale.

Key applications include:

  • telecommunications
  • acoustics
  • sound insulation
  • sensors
  • radar imaging
  • optics (terahertz and infrared)
  • coatings & films
  • lidar systems for self-driving cars
  • imaging and sensing
  • power transmission
  • energy harvesting
  • wireless charging
  • thermal management
  • superlenses for medical devices
  • AR displays

Report content include:

  • Current market analysis and future revenue forecasts, by metamaterial types, markets and region.
  • Commercialization assessment from research to market
  • Market drivers, trends and challenges
  • Competitive landscape
  • In-depth opportunity assessment in markets including communications, sound insulation, antennas, sensors, solar coatings, displays, and medical imaging
  • Profiles of 66 companies including products, investments, partnerships. Companies profiled include Anywaves, Breylon, Echodyne, Inc., Evolv Technologies, Inc., Fractal Antenna Systems, Inc, Imagia, Kymeta Corporation, Lumotive, OPT Industries, Phononic Vibes srl, Metamaterial, Inc. and Metawave Corporation
  • Detailed application market forecasts through 2034
  • Regional revenues and demand analysis

TABLE OF CONTENTS

1. EXECUTIVE SUMMARY

  • 1.1. Historical metamaterials market
  • 1.2. Recent growth
  • 1.3. Global market revenues, current and forecast
  • 1.4. Regional analysis
  • 1.5. Market opportunity assessment
  • 1.6. Investment funding in metamaterials
  • 1.7. Market and technology challenges
  • 1.8. Industry developments 2020-2023

2. METAMATERIALS OVERVIEW

  • 2.1. What are metamaterials?
    • 2.1.1. Electromagnetic metamaterials
    • 2.1.2. Metasurfaces
      • 2.1.2.1. Meta-Lens
      • 2.1.2.2. Metasurface holograms
      • 2.1.2.3. Flexible metasurfaces
      • 2.1.2.4. Reconfigurable intelligent surfaces (RIS)
  • 2.2. Types of metamaterials
    • 2.2.1. Optical Metamaterials
      • 2.2.1.1. Photonic metamaterials
      • 2.2.1.2. Tunable metamaterials
      • 2.2.1.3. Frequency selective surface (FSS) based metamaterials
      • 2.2.1.4. Plasmonic metamaterials
      • 2.2.1.5. Invisibility cloaks
      • 2.2.1.6. Perfect absorbers
      • 2.2.1.7. Optical nanocircuits
      • 2.2.1.8. Metalenses
      • 2.2.1.9. Holograms
      • 2.2.1.10. Applications
    • 2.2.2. Electromagnetic metamaterials
      • 2.2.2.1. Double negative (DNG) metamaterials
      • 2.2.2.2. Single negative metamaterials
      • 2.2.2.3. Electromagnetic bandgap metamaterials (EBG)
      • 2.2.2.4. Bi-isotropic and bianisotropic metamaterials
      • 2.2.2.5. Chiral metamaterials
      • 2.2.2.6. Electromagnetic Invisibility cloak
    • 2.2.3. Radio frequency (RF) metamaterials
      • 2.2.3.1. RF metasurfaces
      • 2.2.3.2. Frequency selective surfaces
      • 2.2.3.3. Tunable RF metamaterials
      • 2.2.3.4. RF metamaterials antennas
      • 2.2.3.5. Absorbers
      • 2.2.3.6. Luneburg lens
      • 2.2.3.7. RF filters
      • 2.2.3.8. Applications
    • 2.2.4. Terahertz metamaterials
      • 2.2.4.1. THz metasurfaces
      • 2.2.4.2. Quantum metamaterials
      • 2.2.4.3. Graphene metamaterials
      • 2.2.4.4. Flexible/wearable THz metamaterials
      • 2.2.4.5. THz modulators
      • 2.2.4.6. THz switches
      • 2.2.4.7. THz absorbers
      • 2.2.4.8. THz antennas
      • 2.2.4.9. THz imaging components
    • 2.2.5. Acoustic metamaterials
      • 2.2.5.1. Sonic crystals
      • 2.2.5.2. Acoustic metasurfaces
      • 2.2.5.3. Locally resonant materials
      • 2.2.5.4. Acoustic cloaks
      • 2.2.5.5. Hyperlenses
      • 2.2.5.6. Sonic one-way sheets
      • 2.2.5.7. Acoustic diodes
      • 2.2.5.8. Acoustic absorbers
      • 2.2.5.9. Applications
    • 2.2.6. Tunable Metamaterials
      • 2.2.6.1. Tunable electromagnetic metamaterials
      • 2.2.6.2. Tunable THz metamaterials
      • 2.2.6.3. Tunable acoustic metamaterials
      • 2.2.6.4. Tunable optical metamaterials
      • 2.2.6.5. Applications
    • 2.2.7. Nonlinear metamaterials
    • 2.2.8. Self-Transforming Metamaterials
    • 2.2.9. Topological Metamaterials
    • 2.2.10. Materials used with metamaterials
  • 2.3. Technology Readiness Level (TRL)

3. MARKETS AND APPLICATIONS FOR METAMATERIALS

  • 3.1. Competitive landscape
  • 3.2. SWOT analysis
  • 3.3. Future market outlook
  • 3.4. Global revenues for metamaterials, by market, 2017-2034(Millions USD)
    • 3.4.1. By end-use market
    • 3.4.2. By region
  • 3.5. ACOUSTICS
    • 3.5.1. Market drivers and trends
    • 3.5.2. Applications
      • 3.5.2.1. Sound insulation
      • 3.5.2.2. Vibration dampers
    • 3.5.3. Market assessment
    • 3.5.4. Global revenues 2017-2034
  • 3.6. COMMUNICATIONS
    • 3.6.1. Market drivers and trends
    • 3.6.2. Applications
      • 3.6.2.1. Wireless Networks
      • 3.6.2.2. Fiber Optic Communications
      • 3.6.2.3. Satellite Communications
      • 3.6.2.4. Thermal management
    • 3.6.3. Global revenues 2017-2034
  • 3.7. AUTOMOTIVE
    • 3.7.1. Market drivers and trends
    • 3.7.2. Applications
      • 3.7.2.1. Radar and sensors
      • 3.7.2.2. Autonomous vehicles
      • 3.7.2.3. Anti-reflective plastics
    • 3.7.3. Market assessment
    • 3.7.4. Global revenues 2017-2034
  • 3.8. AEROSPACE, DEFENCE & SECURITY
    • 3.8.1. Market drivers and trends
    • 3.8.2. Applications
      • 3.8.2.1. Stealth technology
      • 3.8.2.2. Radar
      • 3.8.2.3. Optical sensors
      • 3.8.2.4. Security screening
      • 3.8.2.5. Composites
      • 3.8.2.6. Windscreen films
      • 3.8.2.7. Protective eyewear for pilots
      • 3.8.2.8. EMI and RFI shielding
      • 3.8.2.9. Thermal management
    • 3.8.3. Market assessment
    • 3.8.4. Global revenues 2017-2034
  • 3.9. COATINGS AND FILMS
    • 3.9.1. Market drivers and trends
    • 3.9.2. Applications
      • 3.9.2.1. Cooling films
      • 3.9.2.2. Anti-reflection surfaces
      • 3.9.2.3. Optical solar reflection coatings
    • 3.9.3. Market assessment
    • 3.9.4. Global revenues 2017-2034
  • 3.10. PHOTOVOLTAICS
    • 3.10.1. Market drivers and trends
    • 3.10.2. Applications
      • 3.10.2.1. Solar-thermal absorber
      • 3.10.2.2. Coatings
    • 3.10.3. Global revenues 2017-2034
  • 3.11. MEDICAL IMAGING
    • 3.11.1. Market drivers and trends
    • 3.11.2. Applications
      • 3.11.2.1. MRI imaging
    • 3.11.3. Global revenues 2017-2034
  • 3.12. DISPLAYS
    • 3.12.1. Market drivers and trends
    • 3.12.2. Applications
      • 3.12.2.1. Holographic displays
      • 3.12.2.2. AR/VR
      • 3.12.2.3. Multiview displays
      • 3.12.2.4. Stretchable displays
      • 3.12.2.5. Soft materials
      • 3.12.2.6. Anti-reflection coatings

4. COMPANY PROFILES (66 companies)

5. RESEARCH METHODOLOGY

  • 5.1. Report scope
  • 5.2. Research methodology

6. REFERENCES

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