Metamaterial Market

Metamaterial MarketMetamaterial Market.

Metamaterial Market by Material Type (Electromagnetic, Terahertz, Photonic, Tunable, and FSS ), Application (Communication Antenna, Windscreen, Solar Panel, Sensing, Display, and Medical Imaging), Vertical and Geography – Global Forecast to 2025.

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The metamaterial market is expected to have a high growth during the forecast period. The overall market is expected to be valued at USD 4,634.8 Million by 2025 from USD 30.1 Million in 2016, at a CAGR of 63.1% between 2017 and 2025. The objective of the report is to provide a detailed analysis of the market based on material type, application, vertical, and geography; information regarding the major factors influencing the growth of the market (drivers, restraints, opportunities, and industry-specific challenges); and a detailed value chain analysis. Major factors driving the growth of the metamaterial market include variety in design functionalities, anti-glare coating application, and invisibility cloak for stealth aircraft.

By application, communication antenna expected to hold a larger market share during the forecast period.

The metamaterial market has been categorized on the basis of applications into communication antenna, windscreen, solar panel, sensing, display, and medical imaging.

Communication antenna accounted for a larger share of the overall metamaterial market in 2016 and is expected to hold a larger market share during the forecast period. This is mainly because the communication antenna is ideal for major communication applications such as satellite communication, Wi-Fi routers, and radar communication.

However, the metamaterial market for the medical imaging is expected to grow at the highest CAGR during the forecast period. This growth is mainly attributed to the applicability of super lens, MRI, and X-ray in the medical vertical.

By material, electromagnetic metamaterial to hold the largest market share during the forecast period.

The metamaterial market has been segmented on the basis of material type into electromagnetic, photonic, terahertz, tunable, and frequency selective surface (FSS) metamaterials.

The electromagnetic metamaterial accounted for the largest market share in 2016. The market for electromagnetic metamaterial is expected to grow during the forecast period because the electromagnetic material is suitable for the communication antenna application, which is the widely used metamaterial application.

The metamaterial market for frequency selective surface is expected to grow at the highest CAGR because of the major interest of the defense vertical for this class of metamaterials, where these materials are used to create radar covers called radomes. Radomes are bandpass FSS filters that are used to reduce the radar cross-section (RCS) of an antenna system outside its frequency band of operation. This is an important part of stealth technology.

By industry, aerospace and defense expected to hold the largest market share during the forecast period.

The metamaterial market has been segmented on the basis of verticals into aerospace & defense, consumer electronics, energy & power, medical, and automotive. Aerospace and defense currently hold the leading position in the overall metamaterial market. This can be attributed to the rising funds from DOD, DARPA, and NASA for satellite communication and radar applications.

The metamaterial market for the automotive application is expected to grow at the highest CAGR because of the growing usage of communication antenna applications owing to the needs in connected cars concept.

The market for the energy and power is expected to grow at the second-highest CAGR due to the rising demand for the usage of solar energy for power generation, which ultimately generates a huge demand for solar panels in the industry.

APAC to be the fastest-growing region in the metamaterial market during the forecast period.

The metamaterial market has also been broadly classified on the basis of region into the Americas, Europe, Asia Pacific (APAC), and Rest of the World (RoW). The APAC region is expected to be the fastest growing market for metamaterial during the forecast period. This growth is attributed to the increasing demand for communication applications and solar energy usage, as well as the ongoing research activities in this region for the development of metamaterial.

However, Americas accounted for the largest share of the overall metamaterial market in 2016 due to the increasing demand from the aerospace and defense vertical. Government agencies, such as DOD, DARPA, and NASA, are extensively funding research universities and industry players for the development of metamaterial-based antennas.

Market Dynamics.

Driver: Invisibility cloak for stealth aircraft.

Metamaterials have unusual properties that are not seen in natural materials. For instance, metamaterials can bend light. Due to such properties, metamaterials can be used to create invisibility cloaks and ultra-thin soundproof walls, as well as act as a cooling system. The aerospace and defense is the most lucrative vertical of the metamaterial market. The DOD has provided a large amount of R&D funding to metamaterial industry players for developing innovative products for the aerospace and defense vertical. The invisibility cloak is the major driver for the aerospace and defense vertical. These invisibility cloaks can be used for military equipment and aircrafts during war and espionage activities. Currently, many R&D activities are taking place around the world. For example, researchers at the Iowa State University (US) are working on technology that could make an invisibility cloak for stealth aircraft.

Restraint: Cost of synthetization of metamaterials.

Metamaterials are the materials that extract their properties from their structure rather than the material of which they are composed of. Therefore, the synthetization of the metamaterial varies according to an application. It is very difficult to synthesize the right combination of materials to get the desired application. Therefore, the synthetization of the metamaterial is a time consuming and critical process. The cost of synthetization is related to the number of fabrication methods. The number of fabrication methods varies according to the design combination and desired application. Hence, the cost of synthetization of the metamaterial is high. Unavailability of affordable technology to synthesize metamaterials is acting as the biggest restraint for the metamaterial market.

Opportunity: Metamaterial usage in the solar power system.

The demand for the global solar installation is increasing from the last few years. For instance, according to the Solar Energy Industries Association (SEIA), the US solar industry is expected to install 14.5 gigawatts of solar power in 2016, a 94% increase over the record 7.5 gigawatts in 2015. This increasing demand for solar installation can create an opportunity for the metamaterial-based solar solutions. Metamaterials absorb a huge amount of light with exceptionally high efficiency, thereby increasing its usage in solar cells. For instance, Metamaterial Technologies, Inc. (Canada) has developed the Lamda Solar technology. This technology helps to increase the solar cell efficiency by up to 100 % by collecting light from all angles and absorbing it.

Challenge: Unavailability of technology for mass production of metamaterials.

Metamaterial-based products are mainly into the research and development phase. Hence, for designing techniques, the industry players rely on research centres or universities. As a result, metamaterials are synthesized in very small quantity. Sometimes, these techniques are not suitable for the mass production of metamaterials. Due to unavailability of a suitable technology for mass production, the cost of metamaterials is high. Finding low cost manufacturing techniques for mass production of metamaterials is the biggest challenge in the market.

Scope of the Report.

Market size available for years.

Base year considered.

Material, Application, Vertical and Region.

Americas, Europe, APAC, RoW (South America, Middle East, and Africa)

Kymeta Corporation (US), Metamaterial Technologies, Inc. (Canada), Phoebus Optoelectronics LLC (US), Multiwave Technologies AG (Switzerland), MediWise Ltd. (UK), and MetaShield LLC. (US).

The metamaterial market covered under this report has been segmented as follows:

Metamaterial Market, by Material Type.

Electromagnetic Metamaterial Terahertz Metamaterial Photonic Metamaterial Tunable Metamaterial Frequency Selective Surface (FSS) Metamaterial.

Metamaterial Market, by Application.

Communication Antenna Windscreen Solar Panel Sensing Display Medical Imaging.

Metamaterial Market, by Vertical.

Aerospace and Defense Automotive Consumer Electronics Energy and Power Medical.

Market, by Region.

Americas Europe Asia Pacific (APAC) Rest of the World (RoW)

Key Market Players.

Kymeta Corporation persists to strengthen its position in the market with its metamaterial-based satellite antennas for global satellite communications. As one of the leading players of these antennas, the company is planning to commercialize mTenna by 2017 to secure a large market share. Kymeta Corporation is expanding its business through partnerships with large industry leaders such as Inmarsat (UK), Toyota Motor Corporation (Japan), Intelsat (US), Panasonic Corporation (Japan), Airbus Defense & Space (France), Sharp (Japan), Intellian (South Korea) and O3b Networks (Europe).

Recent Developments.

In March 2017, Kymeta Corporation signed an agreement with SKY Perfect JSAT Corporation (Japan) for development in its mTenna connectivity technology to satellite. From this agreement, Kymeta Corporation would have an opportunity to deliver its mTenna satellite connectivity in the APAC region. In February 2017, Metamaterial Technologies, Inc. entered into an agreement with Airbus (France) to co-develop and commercialize its metamaterial product—metaAIR. The metaAIR provides vision protection to pilots in the aviation vertical. In May 2016, Echodyne, Inc. developed an airborne detect and avoid (DAA) radar for small to medium-sized unmanned aircraft system (UAS) named as MESA-DAA. This product is developed by using metamaterial electronically scanning array (MESA) technology. MESA-DAA radar operates at K-band and is capable of rapidly scanning broad field at a range of 3 kms. In February 2017, Multiwave Technologies AG collaborated with the Imperial College London (UK) to improve the design algorithms of metamaterials. This collaboration focuses on developing algorithms that would improve the capacity to design metamaterials for applications in the field of medical imaging and optics.

Key Questions Answered.

Where will all these developments take the industry in the long term? What are the upcoming trends for the Metamaterial Market? Which segment provides the most opportunity for growth? Who are the leading vendors operating in this market? What are the opportunities for new market entrants?

To speak to our analyst for a discussion on the above findings, click Speak to Analyst.

Table of Contents.

1 Introduction 1.1 Study Objectives 1.2 Market Definition 1.3 Study Scope 1.3.1 Markets Covered 1.3.2 Years Considered 1.4 Currency 1.5 Stakeholders.

2 Research Methodology 2.1 Research Data 2.1.1 Secondary Data 2.1.1.1 Key Data from Secondary Sources 2.1.2 Primary Data 2.1.2.1 Key Data from Primary Sources 2.1.2.2 Key Industry Insights 2.1.2.3 Breakdown of Primaries 2.2 Market Size Estimation 2.2.1 Bottom-Up Approach 2.2.2 Top-Down Approach 2.2.3 Market Size Estimation 2.3 Market Breakdown and Data Triangulation 2.4 Research Assumptions.

3 Executive Summary.

4 Premium Insights 4.1 Attractive Market Opportunities in the Overall Market 4.2 Metamaterial Market, By Material Type 4.3 Market, By Application 4.4 Region Analysis of the Market 4.5 Market Size, By Region 4.6 Market, By Vertical.

5 Market Overview 5.1 Introduction 5.2 Market Dynamics 5.2.1 Drivers 5.2.2 Restraints 5.2.3 Opportunities 5.2.4 Challenges 5.3 Industry Trends 5.3.1 Introduction 5.3.2 Value Chain Analysis.

6 Metamaterial Market, By Material Type 6.1 Introduction 6.2 Electromagnetic Metamaterials 6.2.1 Types of Electromagnetic Metamaterials 6.2.1.1 Double Negative Metamaterials 6.2.1.2 Single Negative Metamaterials 6.2.1.3 Electronic Bandgap Metamaterial 6.2.1.4 Double Positive Medium 6.2.1.5 Bi-Isotropic and Bi-Anisotropic Metamaterials 6.2.1.6 Chiral Metamaterials 6.2.1.7 Hyperbolic Metamaterials 6.3 Terahertz Metamaterials 6.4 Photonic Metamaterials (Optical Metamaterial) 6.5 Tunable Metamaterials 6.6 Frequency Selective Surface 6.7 Other Materials 6.7.1 Non – Linear Metamaterials 6.7.2 Mechanical Metamaterials 6.7.3 Acoustic Metamaterial 6.7.4 Superconducting Metamaterials 6.7.5 Extreme-Parameter Metamaterials (i.e., metamaterials with internal structures that have been modified or engineered on a molecular or nanoscale level to impart extraordinary strength, flexibility or other characteristics) 6.7.6 Magnetic Nanocomposite Metamaterials.

7 Metamaterial Market, By Application 7.1 Introduction 7.2 Communication Antenna and Radar (Beam-Steering) 7.3 Sensing/Sensors 7.4 Solar Panel/Solar Absorbers 7.5 Display 7.6 Medical Imaging 7.6.1 Magnetic Resonance Imaging (MRI) 7.6.2 Ultrasound Imaging 7.6.3 Cancer Detection 7.6.4 Microwave Hyperthermia 7.6.5 Wireless Strain Sensing 7.7 Windscreen 7.8 Other Applications 7.8.1 Invisible Cloaking 7.8.2 Acoustic Cloaking 7.8.3 Acoustic Sensor 7.8.4 EMC Shielding 7.8.5 Superlens 7.8.6 Strain Sensor 7.8.7 Hyper Spectral Imaging 7.8.8 Near-Field Optical Microscopy.

8 Market, By Vertical 8.1 Introduction 8.2 Automotive 8.3 Aerospace and Defense 8.4 Consumer Electronics 8.5 Medical 8.6 Energy and Power.

9 Geographic Analysis 9.1 Introduction 9.2 The Americas 9.2.1 Metamaterial Markets in Americas, By Application 9.2.2 Metamaterial Market for Communication Antenna in Americas, By Vertical 9.2.3 Metamaterial Market for Solar Panel in Americas, By Vertical 9.2.4 Metamaterial Market for Windscreen in Americas, By Vertical 9.2.5 Metamaterial Market for Sensing in Americas, By Vertical 9.2.6 Metamaterial Market for Display in Americas, By Vertical 9.2.7 Metamaterial Market for Medical Imaging in Americas, By Vertical 9.3 Europe 9.3.1 Metamaterial Markets in Europe, By Application 9.3.2 Metamaterial Market for Communication Antenna in Europe, By Vertical 9.3.3 Metamaterial Market for Solar Panel in Europe, By Vertical 9.3.4 Metamaterial Market for Windscreen in Europe, By Vertical 9.3.5 Metamaterial Market for Sensing in Europe, By Vertical 9.3.6 Metamaterial Market for Display in Europe, By Vertical 9.3.7 Metamaterial Market for Medical Imaging in Europe, By Vertical 9.4 Asia Pacific 9.4.1 Metamaterial Markets in APAC, By Application 9.4.2 Metamaterial Market for Communication Antenna in APAC, By Vertical 9.4.3 Metamaterial Market for Solar Panel in APAC, By Vertical 9.4.4 Metamaterial Market for Windscreen in APAC, By Vertical 9.4.5 Metamaterial Market for Sensing in APAC, By Vertical 9.4.6 Metamaterial Market for Display in APAC, By Vertical 9.4.7 Metamaterial Market for Medical Imaging in APAC, By Vertical 9.5 Rest of the World (RoW) 9.5.1 Metamaterial Markets in RoW, By Application 9.5.2 Metamaterial Market for Communication Antenna in RoW, By Vertical 9.5.3 Metamaterial Market for Solar Panel in RoW, By Vertical 9.5.4 Metamaterial Market for Windscreen in RoW, By Vertical 9.5.5 Metamaterial Market for Sensing in RoW, By Vertical 9.5.6 Metamaterial Market for Display in RoW, By Vertical 9.5.7 Metamaterial Market for Medical Imaging in RoW, By Vertical.

10 Competitive Landscape 10.1 Overview 10.2 Competitive Scenario 10.2.1 Product Launches and Developments 10.2.2 Expansions 10.2.3 Partnerships, Agreements, and Contracts 10.2.4 Mergers & Acquisitions 10.3 Vendor Dive Analysis 10.3.1 Vanguards 10.3.2 Dynamic 10.3.3 Innovator 10.3.4 Emerging 10.4 Business Strategy Adopted By Major Players in the Market (For All 25 Players) 10.5 Analysis of the Product Offerings of Major Player in the Market (For All 25 Players)

*Top 25 Companies Analyzed for This Study are – Kymeta Corporation, Metamaterial Technologies Inc., Multiwave Technologies AG, Echodyne Inc., Phoebus Optoelectronics LLC, Mediwise, Metashield LLC. , Plasmonics Inc., Acentech Incorporated, Aegis Technologies, Metamagnetics, Nanohmics Inc., Protemics GmbH, Sensormetrix, Sonobex, Triton Systems, Inc., Teraview, Applied EM, EM Infinity, Fractal Antenna Systems Inc., JEM Engineering, Microwave Measurement Systems, LLC., Nanosonics, Nkt Photonics, Specom Oy.

11 Company Profiles 11.1 Introduction (Business Overview, Products Offered & Services Strategies, Key Insights, Recent Developments, MnM View)* 11.2 Kymeta Corporation 11.3 Metamaterial Technologies, Inc. 11.4 JEM Engineering, LLC. 11.5 Echodyne Inc. 11.6 Multiwave Technologies AG 11.7 Mediwise 11.8 Metashield LLC. 11.9 Nanosonic, Inc. 11.10 Plasmonics, Inc. 11.11 Applied EM 11.12 Phoebus Optoelectronics, LLC 11.13 Key Innovators 11.13.1 Aegis Technologies 11.13.2 Metamagnetics, Inc. 11.13.3 Teraview 11.13.4 Nanohmics, Inc.

*Details on Business Overview, Products Offered & Services Strategies, Key Insights, Recent Developments, MnM View Might Not Be Captured in Case of Unlisted Companies.

12 Appendix 12.1 Insights from Industry Experts 12.2 Discussion Guide 12.3 Knowledge Store: Marketsandmarkets’ Subscription Portal 12.4 Available Customizations 12.5 Related Reports 12.6 Author Details.

List of Tables (87 Tables)

Table 1 Metamaterial Market, By Material Type, 2014–2025 (USD Million) Table 2 Market for Electromagnetic Metamaterial, By Application, 2014–2025 (USD Million) Table 3 Market for Terahertz Metamaterial, By Application, 2014–2025 (USD Million) Table 4 Market for Photonic Metamaterials, By Application, 2014–2025 (USD Million) Table 5 Market for Tunable Metamaterials, By Application, 2014–2025 (USD Million) Table 6 Market for Frequency Selective Surface (FSS) Metamaterials, By Application, 2014–2025 (USD Million) Table 7 Market in Americas, By Material Type, 2014–2025 (USD Million) Table 8 Market in Europe, By Material Type, 2014–2025 (USD Million) Table 9 Market in APAC, By Material Type, 2014–2025 (USD Million) Table 10 Market in RoW, By Material Type, 2014–2025 (USD Million) Table 11 Market, By Application, 2014–2025 (USD Million) Table 12 Communication Antenna, By Material Type, 2014–2025 (USD Million) Table 13 Communication Antenna, By Vertical, 2014–2025 (USD Million) Table 14 Communication Antenna, By Region, 2014–2025 (USD Million) Table 15 Communication Antenna for Automotive, By Region, 2014–2025 (USD Million) Table 16 Communication Antenna for Aerospace & Defense, By Region, 2014–2025 (USD Million) Table 17 Communication Antenna for Consumer Electronics, By Region, 2014–2025 (USD Million) Table 18 Communication Antenna for Medical, By Region, 2014–2025 (USD Million) Table 19 Detailed Comparative Results of Three Biosensors: Table 20 Sensing, By Material Type, 2014–2025 (USD Million) Table 21 Sensing, By Vertical, 2014–2025 (USD Million) Table 22 Sensing, By Region, 2014–2025 (USD Million) Table 23 Sensing for Automotive, By Region, 2014–2025 (USD Million) Table 24 Sensing for Aerospace & Defense, By Region, 2014–2025 (USD Million) Table 25 Sensing for Medical, By Region, 2014–2025 (USD Million) Table 26 Solar Panel, By Material Type, 2014–2025 (USD Million) Table 27 Solar Panel, By Vertical, 2014–2025 (USD Million) Table 28 Solar Panel, By Region, 2014–2025 (USD Million) Table 29 Solar Panel for Automotive, By Region, 2014–2025 (USD Million) Table 30 Solar Panel for Aerospace & Defense, By Region, 2014–2025 (USD Million) Table 31 Solar Panel for Energy & Power, By Region, 2014–2025 (USD Million) Table 32 Display, By Material Type, 2014–2025 (USD Million) Table 33 Display, By Vertical, 2014–2025 (USD Million) Table 34 Display, By Region, 2014–2025 (USD Million) Table 35 Display for Automotive, By Region, 2014–2025 (USD Million) Table 36 Display for Aerospace & Defense, By Region, 2014–2025 (USD Million) Table 37 Display for Consumer Electronics, By Region, 2014–2025 (USD Million) Table 38 Medical Imaging, By Material Type, 2014–2025 (USD Million) Table 39 Medical Imaging, By Vertical, 2014–2025 (USD Million) Table 40 Medical Imaging, By Region, 2014–2025 (USD Million) Table 41 Medical Imaging for Medical, By Region, 2014–2025 (USD Million) Table 42 Windscreen, By Material Type, 2014–2025 (USD Million) Table 43 Windscreen, By Vertical, 2014–2025 (USD Million) Table 44 Windscreen, By Region, 2014–2025 (USD Million) Table 45 Windscreen for Automotive, By Region, 2014–2025 (USD Million) Table 46 Windscreen for Aerospace & Defense, By Region, 2014–2025 (USD Million) Table 47 Market, By Vertical, 2014–2025 (USD Million) Table 48 Market for Automotive, By Application, 2014–2025 (USD Million) Table 49 Market for Aerospace & Defense, By Application, 2014–2025 (USD Million) Table 50 Market for Consumer Electronics, By Application, 2014–2025 (USD Million) Table 51 Market for Medical, By Application, 2014–2025 (USD Million) Table 52 Market for Energy & Power, By Application, 2014–2025 (USD Million) Table 53 Market, By Region, 2014–2025 (USD Million) Table 54 Market in Americas, By Application, 2014–2025 (USD Million) Table 55 Market for Communication Antenna in Americas, By Vertical 2014–2025 (USD Million) Table 56 Market for Solar Panel in Americas, By Vertical, 2014–2025 (USD Million) Table 57 Market for Windscreen in Americas, By Vertical, 2014–2025 (USD Million) Table 58 Market for Sensing in Americas, By Vertical, 2014–2025 (USD Million) Table 59 Market for Display in Americas, By Vertical, 2014–2025 (USD Million) Table 60 Market for Medical Imaging in Americas, By Vertical, 2014–2025 (USD Million) Table 61 Market in Europe, By Application, 2014–2025 (USD Million) Table 62 Market for Communication Antenna in Europe, By Vertical, 2014–2025 (USD Million) Table 63 Market for Windscreen in Europe, By Vertical, 2014–2025 (USD Million) Table 64 Market for Solar Panel in Europe, By Vertical, 2014–2025 (USD Million) Table 65 Market for Sensing in Europe, By Vertical, 2014–2025 (USD Million) Table 66 Market for Display in Europe, By Vertical, 2014–2025 (USD Million) Table 67 Market for Medical Imaging in Europe, By Vertical, 2014–2025 (USD Million) Table 68 Market in APAC, By Application, 2014–2025 (USD Million) Table 69 Market for Communication Antenna in APAC, By Vertical, 2014–2025 (USD Million) Table 70 Market for Windscreen in APAC, By Vertical, 2014–2025 (USD Million) Table 71 Market for Solar Panel in APAC, By Vertical, 2014–2025 (USD Million) Table 72 Market for Sensing in APAC, By Vertical, 2014–2025 (USD Million) Table 73 Market for Display in APAC, By Vertical, 2014–2025 (USD Million) Table 74 Market for Medical Imaging in APAC, By Vertical, 2014–2025 (USD Million) Table 75 Market in RoW, By Application, 2014–2025 (USD Million) Table 76 Market for Communication Antenna in RoW, By Vertical, 2014–2025 (USD Million) Table 77 Market for Solar Panel in RoW, By Vertical, 2014–2025 (USD Million) Table 78 Market for Windscreen in RoW, By Vertical, 2014–2025 (USD Million) Table 79 Market for Sensing in RoW, By Vertical, 2014–2025 (USD Million) Table 80 Market for Display in RoW, By Vertical, 2014–2025 (USD Million) Table 81 Market for Medical Imaging in RoW, By Vertical, 2014–2025 (USD Million) Table 82 Market in Americas, By Vertical, 2014–2025 (USD Million) Table 83 Market in Europe, By Vertical, 2014–2025 (USD Million) Table 84 Market in APAC, By Vertical, 2014–2025 (USD Million) Table 85 Market in RoW, By Vertical, 2014–2025 (USD Million) Table 86 10 Most Recent Partnerships in the Market Table 87 New Product Launches, Acquisitions, Expansions, and Agreements in the Market.

List of Figures (62 Figures)

Figure 1 Market Segmentation Figure 2 Metamaterial Market: Research Design Figure 3 Research Flow of Market Size Estimation Figure 4 Market Size Estimation Methodology: Bottom-Up Approach Figure 5 Market Size Estimation Methodology: Top-Down Approach Figure 6 Data Triangulation Figure 7 Assumptions of the Research Study Figure 8 Communication Antenna Expected to Hold A Larger Market Share Than All Other Applications By 2025 Figure 9 Electromagnetic Metamaterial to Hold the Largest Market Share in 2016 Figure 10 Aerospace and Defense Expected to Hold the Largest Market Share During the Forecast Period Figure 11 APAC to Be the Fastest-Growing Region in the Market During the Forecast Period Figure 12 Rising Communication Applications Expected to Increase the Demand for Metamaterials During the Forecast Period Figure 13 Electromagnetic and Photonic Metamaterial to Lead the Market During the Forecast Period Figure 14 Communication Antenna Expected to Hold the Largest Size of the Market By 2025 Figure 15 APAC is Expected to Grow at the Highest Rate in the Market By 2025 Figure 16 Market in APAC Expected to Grow at the Highest Rate During the Forecast Period Figure 17 Aerospace & Defense Holds the Largest Share of the Overall Market During the Forecast Period Figure 18 Value Chain Analysis: Major Value is Added During the Funding and Research, Design, and Development Phases Figure 19 Frequency Selective Surface Metamaterial to Witness the Highest Growth in the Market During the Forecast Period Figure 20 Communication Antenna is the Largest Segment in the Market During the Forecast Period Figure 21 Energy & Power is the Leading Vertical in the Market for Solar Panel During the Forecast Period Figure 22 Electromagnetic Metamaterials to Grow at the Highest Rate in the Medical Imaging Application Market During the Forecast Period Figure 23 Aerospace and Defence Holds the Largest Share of the Market During the Forecast Period Figure 24 Market: Geographic Snapshot Figure 25 Snapshot of the Metamaterial Market in Americas Figure 26 Snapshot of the Market in Europe Figure 27 Snapshot of Market in Asia Pacific Figure 28 Snapshot of the Market in RoW Figure 29 Companies in the Market Adopted Partnership/ Agreements/ Acquisition and Colaboration as the Key Growth Strategy Between January 2014 and December 2016 Figure 30 Market Evaluation Framework Figure 31 Battle for the Market Share Figure 32 Dive Chart (Dynamic, Innovators, Vanguards, and Emerging) Figure 33 Kymeta Corporation: Product Offering Figure 34 Kymeta Corporation: Business Strategy Figure 35 Metamaterial Technologies. Inc.: Product Offering Figure 36 Metamaterial Technologies. Inc.: Business Strategy Figure 37 JEM Engineering, LLC.: Product Offering Figure 38 JEM Engineering, LLC.: Business Strategy Figure 39 Echodyne, Inc.: Product Offering Figure 40 Echodyne, Inc.: Business Strategy Figure 41 Multiwave Technologies AG: Product Offering Figure 42 Multiwave Technologies AG: Business Strategy Figure 43 Mediwise: Product Offering Figure 44 Mediwise: Business Strategy Figure 45 Metashield LLC: Product Offering Figure 46 Metashield LLC: Business Strategy Figure 47 Nanosonic, Inc.: Product Offering Figure 48 Nanosonic, Inc.: Business Strategy Figure 49 Plasmonics, Inc.: Product Offering Figure 50 Plasmonics, Inc.: Business Strategy Figure 51 Applied EM: Product Offering Figure 52 Applied EM: Business Strategy Figure 53 Phoebus Optoelectronics LLC: Product Offering Figure 54 Phoebus Optoelectronics LLC: Business Strategy Figure 55 Aegis Technologies: Product Offering Figure 56 Aegis Technologies: Business Strategy Figure 57 Metamagnetics, Inc.: Product Offering Figure 58 Metamagnetics, Inc.: Business Strategy Figure 59 Teraview: Product Offering Figure 60 Teraview: Business Strategy Figure 61 Nanohmics, Inc.: Product Offering Figure 62 Nanohmics, Inc.: Business Strategy.