PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1235925
PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1235925
According to Stratistics MRC, the Global Metamaterials Market is accounted for $859.78 million in 2022 and is expected to reach $4823.59 million by 2028 growing at a CAGR of 33.3% during the forecast period. A metamaterial is any material that contains properties that are not found in normally existing materials. They are constructed using multi-element assemblies comprised of composite materials such as metal and plastics. The materials are typically organised in a repeating pattern at scales smaller than the wavelengths of the phenomena they influence. Metamaterials' qualities are derived not from the attributes of these fundamental materials, but from their uniquely constructed structure.
According to the Federal Aviation Administration (FAA), the total aircraft fleet is expected to reach 36,500 in 2030, owing to the growth in air cargo.
To maintain peace and security, all countries have invested in their defence industry. Furthermore, governments include a particular amount in their budgets for the nation's military industry each year. The aerospace and defence industries are currently in a "supercycle," which is being fuelled in part by massive order backlogs that are expected to boost production in the industry over the next ten years. Because of the aforementioned considerations, the need for metamaterials in this business is increasing. This demand will be a major driving force for the market in the later stages of the forecast period.
Various nanoparticles, which are extremely expensive, are utilised as raw materials in the production of metamaterials. The EPD technique uses electric fields to deposit charged nanoparticles from a solution onto a substrate. Because of their restricted applications, large-scale manufacture of metamaterials is still in its infancy. Companies worldwide are involved in small to medium-scale metamaterials synthetization due to high manufacturing costs. As a result, a lack of affordable technologies for generating diverse metamaterials in adequate industrial quantities prevents the metamaterials sector from attaining its full potential.
Over the last decade, there has been an increase in demand for wireless mobile communication systems. With the increased implementation of the Internet of Things (IoT), autonomous vehicles, and mobile media, the sheer number of applications of metamaterials in wireless communication systems is predicted to rise during the projection period. The components utilised in these mobile communications must be compact while remaining efficient, which is where metamaterials excel. The adoption of metamaterial components will change all wireless and mobile technologies, driving the sector.
Metamaterial-based goods are still in the research and development stage. As a result, industry companies rely on research institutes or universities to develop methodologies. As a result, metamaterials are produced in extremely small amounts. These processes are not always ideal for the mass manufacture of metamaterials. The cost of metamaterials is considerable due to the lack of a suitable technology for mass manufacture. Finding low-cost manufacturing procedures for mass production of metamaterials is the market's most difficult challenge.
The global expansion of COVID-19 has had a considerable impact on the metamaterials industry. During the corona virus outbreak, global automobile sales declined dramatically due to disruptions in the global supply chain, which remained closed or operated at reduced capacity during the shutdown. As a result, given the importance of metamaterials in improving the performance of vehicle optical equipment such as sensor systems, this has hampered metamaterial demand.
The electromagnetic segment is estimated to have a lucrative growth, due to the metamaterial field and its increasing use in the emerging regions. Electromagnetic metamaterials are artificial materials composed of structures whose electromagnetic properties have been carefully created to provide a range of responses that are difficult or impossible to obtain in naturally occurring materials or composites. A negative index of refraction (where magnetic and electric responses are both negative), perfect (sub-wavelength) lensing, and electromagnetic invisibility cloaks are all important properties of metamaterials. Such qualities propel segment expansion.
The antenna and radar segment is anticipated to witness the fastest CAGR growth during the forecast period. One of the most essential applications for metamaterials is as an antenna. The distinctive property of metamaterials is used to increase the antenna's performance characteristics. Metamaterial coatings have been employed to improve the radiation and coordination capabilities of dipole reception equipment that is both electrically inconsequential and visually beautiful. Metamaterial surface antennas (MSA-T) development falls within a new type of receiving device innovation. It can regulate a radiofrequency bar rapidly and accurately over a wide range of locations without the usage of moving components or expensive stage moving segments. Because of the aforementioned considerations, demand for metamaterials in antenna and radar is likely to increase over the projection period.
North America is projected to hold the largest market share during the forecast period owing to the increasing demand for the products from various end-use sectors, including aerospace & defense. The current administration's willingness to enhance military hardware production and secure the United States' position in the world order is one of several reasons that have led to the increase in military spending during the last five years. Demand for metamaterials is anticipated to increase as a result of such trends in the aerospace and defence industries.
Asia Pacific is projected to have the highest CAGR over the forecast period, owing to increasing investments in Asian countries' defense sectors. China has the most comprehensive base for electronic manufacturing. It sells electronics to consumers and exports electrical products to other countries. Electronics output is expected to increase due to increased middle-class disposable income and rising demand for electronic products in countries importing electronic products from China. As a result, the metamaterials market in the region is expected to grow rapidly.
Some of the key players profiled in the Metamaterials Market include: Nanosteel Company,Colossal Storage Corp., Fractal Antenna Systems, Luminus Devices Inc., Fianium, Alight Technologies, Inframat Corp, Sandvik Material Technology, Opalux, Applied EM Inc., Kymeta Corporation, NKT Photonics, Echodyne Corp. and TeraView Ltd.
In November 2020, Kymeta Corporation announced the availability of KymetaTM u8 and Kymeta Connect TM for government and commercial purchases. These products help the company provide broadband satellite connectivity and cellular networks to satisfy the demand for communications on the move.
In August 2020, Kymeta received USD 85 million in funding, led by Bill Gates with leadership team members. The funding will be mainly used to appoint key executives, new product releases, and market momentum in defense, public safety, and land mobility.
All the customers of this report will be entitled to receive one of the following free customization options: