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先端機能材料市場レポート:タイプ、エンドユーザー、地域別、2024-2032Advanced Functional Materials Market Report by Type, End User, and Region 2024-2032 |
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先端機能材料市場レポート:タイプ、エンドユーザー、地域別、2024-2032 |
出版日: 2024年03月02日
発行: IMARC
ページ情報: 英文 148 Pages
納期: 2~3営業日
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世界の先端機能材料の市場規模は、2023年に1,435億米ドルに達しました。今後、IMARC Groupは、2032年には2,393億米ドルに達し、2024~2032年の成長率(CAGR)は5.67%になると予測しています。ナノテクノロジー分野における継続的な技術発展、世界なネットワーキングを強化するための情報通信技術(ICT)の拡大、耐腐食性・耐屈曲性の自動車や航空機部品に対する需要の高まりなどが、市場を牽引する主な要因のひとつです。
先端機能材料は、材料科学を利用して微細加工研究をサポートする、ユニークな光学的、電子的、機械的特性を持つ特殊品質のハイブリッド化合物群です。これらは、高い機械的強度、耐腐食性、柔軟性、高い熱的・化学的安定性などの優れた特性を持つ材料で構成されています。これとともに、優れた電気的特性を持ち、物理的特性を維持し、化学的に不活性で、プラスチックや金属よりも強いです。先端機能材料は、耐食性、耐溶性、耐屈曲性、耐摩耗性、耐引裂性などの優れた特性により、大量生産に適しています。先端機能材料を使用することで、それが組み込まれた部品の二酸化炭素排出量を削減し、製造時のエネルギー使用量を削減し、リサイクル時のエネルギー消費量も削減することができます。最も一般的な先端機能材料には、ナノテクノロジー材料、光学、レーザー、センサー、多孔質材料、液晶、半導体、超伝導体、発光材料、セラミックス、生物材料などがあります。
数多くのエンドユーザー産業における先端機能材料の幅広い用途に対する製品需要の高まりは、市場の成長を促進する重要な要因の一つです。この背景には、ナノテクノロジー分野における継続的な技術開発があります。さらに、高エネルギー密度キャパシタ、スーパーキャパシタ、スマートデバイス、バッテリーの製造におけるこれらの材料の急速な利用も、市場の重要な成長促進要因として作用しています。この背景には、世界中のネットワーキングを強化するための情報通信技術(ICT)の拡大があります。これに加えて、診断やドラッグデリバリーの促進、インプラントの製造など、ヘルスケア分野でのナノ材料の利用拡大も市場に弾みをつけています。耐腐食性と耐屈曲性を備えた自動車や航空機部品に対する需要の高まりは、自動車産業や航空宇宙産業における製品の普及を高めています。これに加えて、二酸化炭素排出量の少ない軽量材料の使用を促進するために、いくつかの国の政府機関が厳しい排出規制を課していることも、市場の見通しをさらに明るいものにしています。市場に寄与するその他の要因としては、急速な都市化と工業化、排出レベルの上昇、持続可能な開発への注力の強化、継続的な製品革新、広範な研究開発(R&D)活動などが挙げられます。
The global advanced functional materials market size reached US$ 143.5 Billion in 2023. Looking forward, IMARC Group expects the market to reach US$ 239.3 Billion by 2032, exhibiting a growth rate (CAGR) of 5.67% during 2024-2032. Continual technological developments in the field of nanotechnology, the expansion of information and communications technology (ICT) to enhance global networking, and the escalating demand for corrosion- and bend-resistant vehicles, as well as aircraft components, represent some of the key factors driving the market.
Advanced functional materials are a group of special quality hybrid compounds with unique optical, electronic, or mechanical properties that use materials science to support microfabrication research. They are composed of materials that have superior properties, such as high mechanical strength, resistance to corrosion, flexibility, as well as a high thermal and chemical stability. Along with this, they possess excellent electrical properties, maintain their physical properties, are chemically inert, and stronger than plastics and metals. Advanced functional materials are more suitable for mass production due to their exceptional properties, such as corrosion resistance, melting resistance, bend resistance, and wear and tear resistance. The use of advanced functional materials reduces the carbon footprint of the part in which they are incorporated, uses less energy during manufacturing, and is also less energy-intensive during recycling. Some of the most common advanced functional materials include nanotechnology materials, optics, lasers, sensors, porous materials, liquid crystals, semiconductors, superconductors, light emitting materials, ceramics, and biological materials.
The escalating product demand for a wide range of applications of advanced functional materials in numerous end-user industries is one of the key factors driving the growth of the market. This can be attributed to the continual technological development in the field of nanotechnology. Moreover, the rapid utilization of these materials in the manufacturing of high energy density capacitors, super capacitors, smart devices and batteries are also acting as a significant growth-inducing factor for the market. This can be attributed to the expansion of information and communications technology (ICT) to enhance the networking around the world. In addition to this, the growing usage of nanomaterials in the healthcare sector for facilitating diagnosis and drug delivery and the production of implants are providing an impetus to the market. The escalating demand for corrosion-resistant and bend-resistant vehicles as well as aircraft components is resulting in a higher product uptake in the automobile and aerospace industries. Besides this, stringent emission norms imposed by government bodies of several countries for promoting the usage of lightweight materials with low carbon footprint is further creating a positive market outlook. Some of the other factors contributing to the market include rapid urbanization and industrialization, the rising emission levels, an enhanced focus on sustainable development, continual product innovations, and extensive research and development (R&D) activities.
IMARC Group provides an analysis of the key trends in each segment of the global advanced functional materials market, along with forecasts at the global, regional, and country level from 2024-2032. Our report has categorized the market based on type and end user.
Advanced Functional Composites
Advanced Functional Ceramics
Nano-Materials
Advanced Energy Materials
Conductive Polymers
Others
The report has also provided a detailed breakup and analysis of the advanced functional materials market based on the type. This includes advanced functional composites, advanced functional ceramics, nano-materials, advanced energy materials, conductive polymers, and others. According to the report, advanced functional composites represented the largest segment.
Healthcare
Pharmaceuticals
Energy
Automobile
Electrical and Electronics
Chemical
Aerospace
Manufacturing
Building and Construction
A detailed breakup and analysis of the advanced functional materials market based on the end user has also been provided in the report. This includes healthcare, pharmaceuticals, energy, automobile, electrical and electronics, chemical, aerospace, manufacturing, and building and construction. According to the report, aerospace accounted for the largest market share.
North America
United States
Canada
Asia Pacific
China
Japan
India
South Korea
Australia
Indonesia
Others
Europe
Germany
France
United Kingdom
Italy
Spain
Russia
Others
Latin America
Brazil
Mexico
Others
Middle East and Africa
The report has also provided a comprehensive analysis of all the major regional markets that include North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Latin America (Brazil, Mexico, and others); and Middle East and Africa. According to the report, Asia Pacific was the largest market for advanced functional materials. Some of the factors driving the Asia Pacific advanced functional materials market included the growing usage of nanomaterials in the healthcare sector, the expanding number of manufacturing facilities producing smart devices, rapid urbanization, and industrialization, etc.
The report has also provided a comprehensive analysis of the competitive landscape in the global advanced functional materials market. Detailed profiles of all major companies have also been provided. Some of the companies covered include 3M Company, Arkema S.A., CeramTec (CTEC Global S.a r.l.), Covestro AG, DuPont de Nemours Inc., Henkel AG & Co. KGaA, Hexcel Corporation, Kuraray Co. Ltd, Kyocera Corporation, Momentive Inc. (MPM Intermediate Holdings Inc.), Morgan Advanced Materials, Showa Denko K. K., Sumitomo Chemical Co. Ltd., etc. Kindly note that this only represents a partial list of companies, and the complete list has been provided in the report.
Kindly, note that this only represents a partial list of companies, and the complete list has been provided in the report