Global Metamaterials Market Report 2025-2035: Identification of New and Potential Applications, Long-term Market Opportunities, How Metamaterials May Disrupt Traditional Industries

Dublin, Sept. 30, 2024 (GLOBE NEWSWIRE) -- The "Global Metamaterials Market 2025-2035" report has been added to ResearchAndMarkets.com's offering.

This comprehensive market report offers an in-depth analysis of the global metamaterials market from 2025 to 2035, providing essential insights for stakeholders across multiple industries. Metamaterials, engineered to possess properties not found in nature, are poised to revolutionize various sectors, from telecommunications to healthcare, automotive to aerospace.

Metamaterials and their two-dimensional equivalents (known as metasurfaces) are artificial structures which can flexibly manipulate the electromagnetic responses through the selection and optimization of the cellular architecture and the chemical composition. Due to their unique properties, metamaterials and metasurfaces have received much attention and been widely used in many fields, such as nanophotonics, energy harvesting, sensing and healthcare etc. Metamaterials' precise shape, geometry, size, orientation, and arrangements allow them to manipulate electromagnetic or mechanical waves, such as light or sound, by blocking, enhancing, and bending the waves.

The report provides in-depth Market Size and Growth Projections, offering detailed forecasts of market value and volume from 2025 to 2035. It includes an analysis of historical market trends and future growth drivers, as well as scenario-based projections that account for various market factors. A regional market analysis is also included, breaking down growth trends across key geographic regions.

The Technology Overview section delivers a comprehensive explanation of different metamaterial types and their unique properties, examining their potential uses in various industries. The report also provides a detailed analysis of manufacturing methods, such as wet etching, roll-to-roll printing, and atomic layer deposition, along with an evaluation of technology readiness levels for different metamaterial applications, offering insights into how close these technologies are to widespread commercial adoption.

Market Drivers and Challenges:

• In-depth exploration of factors driving market growth
• Analysis of technical, economic, and regulatory challenges
• Strategies for overcoming market barriers

Investment Landscape:

• Overview of funding trends in the metamaterials sector
• Analysis of key investment areas and opportunities
• Profiles of major investors and their investment strategies

Competitive Analysis:

• Analysis of competitive strategies and market positioning
• Identification of emerging startups and their innovative technologies
• Regulatory Environment:
• Comprehensive overview of global and regional regulations affecting metamaterials
• Analysis of how regulatory changes may impact market growth
• Forecast of potential future regulatory developments

Future Outlook and Emerging Applications:

• Identification of new and potential applications for metamaterials
• Long-term market opportunities and growth sectors
• Analysis of how metamaterials may disrupt traditional industries

Sustainability and Environmental Impact:

• Evaluation of the environmental implications of metamaterial production and use
• Analysis of how metamaterials can contribute to sustainability goals
• Overview of eco-friendly metamaterial innovations

Key Topics Covered:

1 EXECUTIVE SUMMARY
1.1 Historical metamaterials market
1.2 Recent growth
1.3 Current commercial landscape
1.4 Global market revenues, current and forecast
1.5 Regional analysis
1.6 Market opportunity assessment
1.7 Investment funding in metamaterials
1.8 Market and technology challenges
1.9 Industry developments 2020-2024

2 METAMATERIALS OVERVIEW
2.1 What are metamaterials?
2.2 Types
2.3 Metasurfaces
2.3.1 Meta-Lens
2.3.2 Metasurface holograms
2.3.3 Flexible metasurfaces
2.3.4 Reconfigurable intelligent surfaces (RIS)
2.4 Manufacturing methods
2.4.1 Wet etching
2.4.2 Dry phase patterning
2.4.3 Roll-to-roll (R2R) printing
2.4.4 Wafer-scale nanoimprint lithography
2.4.5 E-beam lithography and atomic layer deposition (ALD
2.4.6 Laser ablation
2.4.7 Deep ultraviolet (DUV) photolithography
2.4.8 RF metamaterials manufacturing
2.4.9 Optical metamaterials manufacturing
2.5 Passive vs active metamaterials

3 OPTICAL METAMATERIALS
3.1 Overview
3.2 Commercial examples
3.3 LiDAR Beam Steering
3.3.1 Overview
3.3.2 Types
3.3.3 Advantages of Metamaterial LiDAR
3.3.4 Liquid crystals
3.3.5 Commercial examples
3.4 Photonic metamaterials
3.5 Optical filters and antireflective coatings
3.5.1 Overview
3.5.2 Electromagnetic (EM) filters
3.5.3 Types
3.5.4 ARCs
3.5.5 Applications of Metamaterial anti-reflection coatings
3.6 Tunable metamaterials
3.7 Frequency selective surface (FSS) based metamaterials
3.8 Plasmonic metamaterials
3.9 Invisibility cloaks
3.10 Perfect absorbers
3.11 Optical nanocircuits
3.12 Metamaterial lenses (Metalenses)
3.12.1 Overview
3.12.2 Light manipulation
3.12.3 Applications
3.13 Holograms
3.14 Materials selection
3.15 Applications

4 RADIO FREQUENCY (RF) METAMATERIALS
4.1 Overview
4.2 Key characteristics
4.3 Reconfigurable Intelligent Surfaces (RIS)
4.3.1 Overview
4.3.2 Key features
4.3.3 Frequencies
4.3.4 Transparent Antennas
4.3.5 Comparison with Other Smart Electromagnetic (EM) Devices
4.4 Radar
4.4.1 Overview
4.4.2 Advantages
4.4.3 Antennas
4.4.4 Metamaterial beamforming
4.5 EMI shielding
4.5.1 Overview
4.5.2 Double negative (DNG) metamaterials
4.5.3 Single negative metamaterials
4.5.4 Electromagnetic bandgap metamaterials (EBG)
4.5.5 Bi-isotropic and bianisotropic metamaterials
4.5.6 Chiral metamaterials
4.5.7 Applications
4.6 MRI Enhancement
4.7 Non-Invasive Glucose Monitoring
4.8 Frequency selective surfaces
4.9 Tunable RF metamaterials
4.10 Absorbers
4.11 Luneburg lens
4.12 RF filters
4.13 Applications

5 TERAHERTZ METAMATERIALS
5.1 THz metasurfaces
5.2 Quantum metamaterials
5.3 Graphene metamaterials
5.4 Flexible/wearable THz metamaterials
5.5 THz modulators
5.6 THz switches
5.7 THz absorbers
5.8 THz antennas
5.9 THz imaging components

6 ACOUSTIC METAMTERIALS
6.1 Sonic crystals
6.2 Acoustic metasurfaces
6.3 Locally resonant materials
6.4 Acoustic cloaks
6.5 Hyperlenses
6.6 Sonic one-way sheets
6.7 Acoustic diodes
6.8 Acoustic absorbers
6.9 Applications

7 TUNABLE METAMATERIALS
7.1 Tunable electromagnetic metamaterials
7.2 Tunable THz metamaterials
7.3 Tunable acoustic metamaterials
7.4 Tunable optical metamaterials
7.5 Applications
7.6 Nonlinear metamaterials
7.7 Self-Transforming Metamaterials
7.8 Topological Metamaterials
7.9 Materials used with metamaterials

8 MARKETS AND APPLICATIONS FOR METAMATERIALS
8.1 Competitive landscape
8.2 Readiness levels of metamaterial technologies
8.3 SWOT analysis
8.4 Outlook
8.5 Acoustics
8.5.1 Market Drivers And Trends
8.5.2 Applications
8.5.2.1 Sound Insulation
8.5.2.2 Vibration Dampers
8.5.3 Global Revenues
8.6 Communications
8.7 Automotive
8.8 Aerospace, Defence & Security
8.9 Coatings And Films
8.10 Photovoltaics
8.11 Medical Imaging
8.12 Consumer Electronics & Displays
8.13 Composites

9 COMPANY PROFILES

• 2Pi Optics
• Acoustic Metamaterials Group Ltd.
• Alcan Systems
• Anywaves
• Armory Technologies
• BlueHalo LLC
• Breylon
• DoCoMo
• Droneshield Limited
• Echodyne Inc.
• Edgehog Advanced Technologies
• EM Infinity
• Emrod
• Evolv Technologies Inc.
• Face Companies
• Filled Void Materials (FVMat) Ltd.
• Fractal Antenna Systems Inc.
• Greenerwave
• H-Chip Technology Group
• HyMet Thermal Interfaces SIA
• Imagia
• Imuzak Co. Ltd.
• Kuang-Chi Technologies Co. Ltd.
• Kymeta Corporation
• LATYS
• Leadoptik Inc.
• Lumotive
• Magic Shields Inc.
• Magment AG
• META
• Metaboards Limited
• Metafold 3D
• Metahelios
• Metalenz Inc.
• Metamagnetics Inc.
• MetaSeismic
• MetaShield LLC
• Metasonixx
• Metavoxel Technologies
• Metawave Corporation
• Merford UK (Sonobex Ltd.)
• Morphotonics
• Moxtek: Metasurface Foundry
• Multiwave Imaging
• Nanohmics Inc.
• Nature Architects
• Neurophos LLC
• NIL Technology
• Nissan Motor Co. Ltd.
• NKT Photonics A/S
• Notch Inc.
• OPT Industries
• PARC
• Phoebus Optoelectronics LLC
• Phononic Vibes srl
• Pinpoint Medical
• Pixie Dust Technologies Inc.
• PlanOpSim
• Pivotal Commware Inc.
• Plasmonics Inc.
• Protemics GmbH
• Radi-Cool Inc.
• SMENA Catalysis AB
• SoundBounce by Lios
• Spectralics
• Specom Oy
• STMicroelectronics
• Teraview Limited
• Tianjin Shanhe Optoelectronics Technology Co. Ltd.
• Tunoptix Inc.
• Ultimetas
• Vadient Optics

For more information about this report visit https://www.researchandmarkets.com/r/a8rkmx

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