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市場調查報告書

全球超材料市場,不同設備類型(天線,超級鏡片,偽裝裝置,吸收設備)·各類型超材料(電磁氣,兆赫波,光子,可變,表面擇頻元件,非線性)·各用途·各地區:趨勢與預測

Metamaterials Market by Device Type (Antennas, Superlens, Cloaking Devices, Absorbers), Metamaterial Type (Electromagnetic, Terahertz, Photonic, Tunable, Frequency Selective Surface, Non-Linear), Application, Geography: Trends & Global Forecasts to 2025

出版商 MarketsandMarkets 商品編碼 300764
出版日期 內容資訊 英文 194 Pages
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全球超材料市場,不同設備類型(天線,超級鏡片,偽裝裝置,吸收設備)·各類型超材料(電磁氣,兆赫波,光子,可變,表面擇頻元件,非線性)·各用途·各地區:趨勢與預測 Metamaterials Market by Device Type (Antennas, Superlens, Cloaking Devices, Absorbers), Metamaterial Type (Electromagnetic, Terahertz, Photonic, Tunable, Frequency Selective Surface, Non-Linear), Application, Geography: Trends & Global Forecasts to 2025
出版日期: 2014年04月22日 內容資訊: 英文 194 Pages
簡介

雖然超材料的發明是很久以前的事了,但由於缺乏技術這個主要理由,其合成方面的顯著開發及研究是在這十年才剛開始。全球專家進行這個概念相關的研究開發活動,雖然展現出了許多進展,但為了實現其真正的可能性,預測還需要再五到十年的時光。超材料是人工設計之材料,由於其具有自然發現所無法具有的特性,提供相較於傳統材料未及的許多優勢。

本報告涵括全球超材料市場,提供各類型超材料·不同設備類型·各用途·各地區市場現況與展望相關調查分析,競爭環境,再彙整主要企業簡介等資料,為您概述為以下內容。

第1章 簡介

第2章 摘要整理

第3章 市場概要

  • 簡介
  • 市場定義
  • 歷史與發展
  • 市場趨勢
  • 市場動態
    • 市場發展推動因素
      • 設計功能的多樣性
      • 聯邦機關的巨額投資
    • 市場發展阻礙因素
      • 加工手法數
      • 超材料合成成本
    • 市場機會
      • 不斷出現的用途
    • 緊急的課題
      • 技術的缺失
    • 成功的必要條件
      • 通訊,航太及國防部門上的潛在用途
  • 價值鏈
    • 研究機關及研究所
    • 大學
    • 政府支援機關
    • ODM廠商設計製造商(ODM)
    • 目標商標產品製造公司(OEM)
    • 終端用戶

第4章 市場,各類型超材料

  • 簡介
  • 電磁氣超材料
    • 電磁氣超材料的種類
    • 電磁氣超材料市場,各用途
    • 電磁氣超材料市場,各地區
  • 兆赫波超材料
    • 兆赫波超材料市場,各用途
    • 兆赫波超材料市場,各地區
  • 光子超材料
    • 光子超材料市場,各用途
    • 光子超材料市場,各地區
  • 可變超材料
    • 可變超材料市場,各用途
    • 可變超材料市場,各地區
  • 表面擇頻元件(FSS)為基礎的超材料
    • FSS為基礎的超材料市場,各用途
    • FSS為基礎的超材料市場,各地區
  • 非線性超材料
    • 非線性超材料市場,各用途
    • 非線性超材料市場,各地區

第5章 市場,不同設備類型

  • 簡介
  • 天線
  • 超級鏡片
  • 偽裝裝置
  • 吸收設備

第6章 市場,各用途

  • 簡介
  • 航太·國防
    • 市場,各類型
    • 市場,各地區
  • 醫療器具
    • 核磁共振影像
    • 超音波影像
    • 口腔·腫瘤
    • 生物醫學
    • 市場,各類型
    • 市場,各地區
  • 光學
    • 市場,各類型
    • 市場,各地區
  • 檢測
    • 生物感應器
    • 薄膜感測器
    • 無線張力感測器
    • 市場,各類型
    • 市場,各地區
  • 通訊
    • 市場,各類型
    • 市場,各地區

第7章 市場,各地區

  • 簡介
  • 北美
    • 市場,各類型
    • 市場,各地區
  • 歐洲
    • 市場,各類型
    • 市場,各地區
  • APAC(亞太地區)
    • 市場,各類型
    • 市場,各地區
  • ROW(其他地區)
    • 市場,各類型
    • 市場,各地區

第8章 競爭環境

  • 簡介
  • 競爭分析
  • 主要的成長策略
  • 新計劃·新產品開發分析
  • 夥伴關係/協定分析
  • 其他動向分析

第9章 企業簡介

  • Applied EM
  • JEM Engineering
  • Kymeta Corporation
  • Metamagnetics
  • Metamaterial Technologies Inc.
  • Microwave Measurement Systems Llc
  • Nanohmics Inc.
  • Nanosonic Inc.
  • Plasmonics Inc.
  • Teraview

圖表

目錄
Product Code: SE 2430

Metamaterials are artificial materials that have unique properties due to the structure of inhomogeneities infused in them and which are not readily found in nature. These materials allow their users to design their own atoms, thus giving them access to new functionalities such as invisibility and imaging with unlimited resolution. This report primarily talks about the global metamaterial market and its trend over the next twelve years.

The report focuses on the in-depth segmentation of metamaterial market by the different type of materials, device type, application, and geography. The market has been segmented by the different types of metamaterials like electromagnetic, terahertz, photonic, tunable, frequency selective surface, and nonlinear metamaterials.

This report analyzes the findings by considering the market dynamics that shape it up. These dynamics are categorized under three headers: drivers, restraints, and opportunities. The market estimations and forecasts have been done using market dynamics. The report also gives detailed profiles of various companies currently active in this market. In addition to the company profiles, the report provides a competitive landscape (CL) of the key players in the market. The CL covers market share analysis, mergers and acquisitions, collaborations, partnerships, new product developments, and other key growth strategies of each player.

The market is also mapped against geography. The market by geography is segmented by various economic regions such as North America, Europe, APAC, and ROW. Apart from market segmentation, the report includes critical market data showing the key market trends, Porter's five forces analysis, and value chain analysis.

KEY TAKE-AWAYS

  • The global metamaterial market is estimated to grow at a healthy CAGR of over 41% from 2015 till 2025, reaching $643 million by 2025
  • North America is expected to be the largest regional market for metamaterials, followed by Europe
  • Telecommunication applications are expected to dominate the market during the entire forecast period
  • Metamaterial antennas are expected to commercialize by 2015, whereas superlens, cloaking devices, and absorbers are expected to be commercially available by 2019, 2022, and 2018 respectively
  • Factors such as evolution of technologies to synthesize metamaterials and increasing adoption by ODMs are rapidly changing the market ecosystem
  • Sensing and Optics are expected to emerge as the next big markets for metamaterials over the next twelve years
  • Medical instrumentation applications are expected to have the fastest growth rate during the forecast period
  • Metamaterials are expected to emerge in the Aerospace and Defense sector by 2017

Table of Contents

1. Introduction

  • 1.1. Key Take-Aways
  • 1.2. Report Description
  • 1.3. Markets Covered
  • 1.4. Stakeholders
  • 1.5. Research Methodology
    • 1.5.1. Key Data Points Taken From Secondary Sources
    • 1.5.2. Key Data Points Taken From Primary Sources
    • 1.5.3. Assumptions Made For This Report
    • 1.5.4. List of Companies Covered During Study

2. Executive Summary

3. Market Overview

  • 3.1. Introduction
  • 3.2. Market Definition
  • 3.3. History & Evolution
  • 3.4. Market Trends
  • 3.5. Market Dynamics
    • 3.5.1. Drivers
      • 3.5.1.1. Variety in Design Functionalities
      • 3.5.1.2. Large Investment By Federal Agencies
    • 3.5.2. Restraints
      • 3.5.2.1. Number of Fabrication Methods
      • 3.5.2.2. Cost of Synthesization of Metamaterials
    • 3.5.3. Opportunities
      • 3.5.3.1. Continuously Emerging Applications
  • 3.6. Burning Issue
    • 3.6.1. Unavailability of Technology
  • 3.7. Winning Imperative
    • 3.7.1. Potential Applications in Telecommunication, Aerospace, and Defense Sector
  • 3.8. Value Chain
    • 3.8.1. Research Institutes and Laboratories
    • 3.8.2. Universities
    • 3.8.3. Government Funded Agencies
    • 3.8.4. Original Device Manufacturers (ODM)
    • 3.8.5. Original Equipment Manufacturers (OEM)
    • 3.8.6. End-Users

4. Market By Metamaterial Type

  • 4.1. Introduction
  • 4.2. Electromagnetic Metamaterials
    • 4.2.1. Types of Electromagnetic Metamaterials
      • 4.2.1.1. Double Negative Metamaterials (DNG)
      • 4.2.1.2. Single Negative Metamaterials (SNG)
      • 4.2.1.3. Electromagnetic Bandgap Metamaterials (EBG)
      • 4.2.1.4. Double Positive Medium (Dps)
      • 4.2.1.5. Bi-Isotropic and Bi-Anisotropic Metamaterials
      • 4.2.1.6. Chiral Metamaterials
    • 4.2.2. Electromagnetic Metamaterials Market By Application
      • 4.2.2.1. Aerospace and Defense Applications
      • 4.2.2.2. Medical Instrumentation Applications
      • 4.2.2.3. Optics Applications
      • 4.2.2.4. Sensing Applications
      • 4.2.2.5. Telecommunication Applications
    • 4.2.3. Electromagnetic Metamaterials Market By Geography
  • 4.3. Terahertz Metamaterials
    • 4.3.1. Terahertz Metamaterials Market By Application
      • 4.3.1.1. Aerospace and Defense Applications
      • 4.3.1.2. Medical Instrumentation Applications
      • 4.3.1.3. Optics Applications
      • 4.3.1.4. Sensing Applications
      • 4.3.1.5. Telecommunication Applications
    • 4.3.2. Terahertz Metamaterials Market By Geography
  • 4.4. Photonic Metamaterials
    • 4.4.1. Photonic Metamaterials Market By Application
      • 4.4.1.1. Medical Instrumentation Applications
      • 4.4.1.2. Optics Applications
      • 4.4.1.3. Telecommunication Applications
    • 4.4.2. Photonic Metamaterials Market By Geography
  • 4.5. Tunable Metamaterials
    • 4.5.1. Tunable Metamaterials Market By Application
      • 4.5.1.1. Aerospace and Defense Applications
      • 4.5.1.2. Medical Instrumentation Applications
      • 4.5.1.3. Sensing Applications
      • 4.5.1.4. Telecommunication Applications
    • 4.5.2. Tunable Metamaterials Market By Geography
  • 4.6. Frequency Selective Surface (FSS) Based Metamaterials
    • 4.6.1. FSS Based Metamaterials Market By Application
      • 4.6.1.1. Aerospace and Defense Applications
      • 4.6.1.2. Medical Instrumentation Applications
      • 4.6.1.3. Sensing Applications
      • 4.6.1.4. Telecommunication Applications
    • 4.6.2. FSS Based Metamaterials Market By Geography
  • 4.7. Non-Linear Metamaterials
    • 4.7.1. Non-Linear Metamaterials Market By Application
      • 4.7.1.1. Aerospace and Defense Applications
      • 4.7.1.2. Medical Instrumentation Applications
      • 4.7.1.3. Optics Applications
      • 4.7.1.4. Telecommunication Applications
    • 4.7.2. Non-Linear Metamaterials Market By Geography

5. Market By Device Type

  • 5.1. Introduction
  • 5.2. Antennas
  • 5.3. Superlens
  • 5.4. Cloaking Devices
  • 5.5. Absorbers

6. Market By Application

  • 6.1. Introduction
  • 6.2. Aerospace & Defense
    • 6.2.1. Market By Type
    • 6.2.2. Market By Geography
  • 6.3. Medical Instrumentation
    • 6.3.1. Magnetic Resonance Imaging (MRI)
    • 6.3.2. Ultrasound Imaging
    • 6.3.3. Oral and Oncology
    • 6.3.4. Biomedical
      • 6.3.4.1. Cancer Detection
      • 6.3.4.2. Microwave Hyperthermia
      • 6.3.4.3. Wireless Strain Sensing
    • 6.3.5. Market By Type
    • 6.3.6. Market By Geography
  • 6.4. Optics
    • 6.4.1. Market By Type
    • 6.4.2. Market By Geography
  • 6.5. Sensing
    • 6.5.1. Biosensor
    • 6.5.2. Thin-Film Sensor
    • 6.5.3. Wireless Strain Sensor
    • 6.5.4. Market By Type
    • 6.5.5. Market By Geography
  • 6.6. Telecommunication
    • 6.6.1. Market By Type
    • 6.6.2. Market By Geography

7. Market By Geography

  • 7.1. Introduction
  • 7.2. North America
    • 7.2.1. Marketbytype
    • 7.2.2. Market By Application
  • 7.3. Europe
    • 7.3.1. Market By Type
    • 7.3.2. Market By Application
  • 7.4. APAC
    • 7.4.1. Market By Type
    • 7.4.2. Market By Application
  • 7.5. ROW
    • 7.5.1. Market By Type
    • 7.5.2. Market By Application

8. Competitive Landscape

  • 8.1. Introduction
  • 8.2. Competitive Analysis
  • 8.3. Key Growth Stategies
  • 8.4. Analysis of New Projects & Product Development
  • 8.5. Analysis of Partnerships/Contracts
  • 8.6. Analysis of Other Developments

9. Company Profiles

  • 9.1. Applied EM
  • 9.2. JEM Engineering
  • 9.3. Kymeta Corporation
  • 9.4. Metamagnetics
  • 9.5. Metamaterial Technologies Inc.
  • 9.6. Microwave Measurement Systems Llc
  • 9.7. Nanohmics Inc.
  • 9.8. Nanosonic Inc.
  • 9.9. Plasmonics Inc.
  • 9.10. Teraview

List of Tables

  • Table 1: General Assumptions, Terminologies, and Applications Keynotes
  • Table 2: List of Companies Covered
  • Table 1: Market Value, By Type, 2013-2025 ($Million)
  • Table 2: Market Value, By Application, 2013-2025 ($Million)
  • Table 3: Market Value, By Geography, 2013-2025 ($Million)
  • Table 4: Market Value, By Type, 2013-2025 ($Million)
  • Table 5: Electromagnetic Metamaterials Market Value, By Application, 2013-2025 ($Million)
  • Table 6: Aerospace & Defense: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
  • Table 7: Medical Instrumentation: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
  • Table 8 : ptics: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
  • Table 9 : ensing: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
  • Table 10: Telecommunication: Electromagnetic Market Value, By Geography, 2013-2025 ($Million)
  • Table 11: Electromagnetic Metamaterials Market Value, By Geography, 2013-2025 ($Million)
  • Table 12: Terahertz Metamaterials Market Value, By Application, 2013-2025 ($Million)
  • Table 13: Aerospace & Defense: Terahertz Market Value, By Geography, 2013-2025 ($Million)
  • Table 14: Medical Instrumentation: Terahertz Market Value, By Geography, 2013-2025 ($Million)
  • Table 15: Optics: Terahertz Market Value, By Geography, 2013-2025 ($Million)
  • Table 16: Sensing: Terahertz Market Value, By Geography, 2013-2025 ($Million)
  • Table 17: Telecommunication: Terahertz Market Value, By Geography, 2013-2025 ($Million)
  • Table 18: Terahertz Metamaterials Market Value, By Geography, 2013-2025 ($Million)
  • Table 19: Photonic Metamaterials Market Value, By Application, 2013-2025 ($Million)
  • Table 20: Medical Instrumentation: Photonic Market Value, By Geography, 2013-2025 ($Million)
  • Table 21: Optics: Photonic Market Value, By Geography, 2013-2025 ($Million)
  • Table 22: Telecommunication: Photonic Market Value, By Geography, 2013-2025 ($Million)
  • Table 23: Photonic Metamaterials Market Value, By Geography, 2013-2025 ($Million)
  • Table 24: Tunable Metamaterials Market Value, By Application, 2013-2025 ($Million)
  • Table 25: Aerospace & Defense: Tunable Market Value, By Geography, 2013-2025 ($Million)
  • Table 26: Medical Instrumentation: Tunable Market Value, By Geography, 2013-2025 ($Million)
  • Table 27: Sensing: Tunable Market Value, By Geography, 2013-2025 ($Million)
  • Table 28: Telecommunication: Tunable Market Value, By Geography, 2013-2025 ($Million)
  • Table 29: Tunable Metamaterials Market Value, By Geography, 2013-2025 ($Million)
  • Table 30: FSS Based Metamaterials Market Value, By Application, 2013-2025 ($Million)
  • Table 31: Aerospace & Defense: FSS Based Market Value, By Geography, 2013-2025 ($Million)
  • Table 32: Medical Instrumentation: FSS Based Market Value, By Geography, 2013-2025 ($Million)
  • Table 33: Sensing: FSS Based Market Value, By Geography, 2013-2025 ($Million)
  • Table 34: Telecommunication: FSS Based Market Value, By Geography, 2013-2025 ($Million)
  • Table 35: FSS Based Metamaterials Market Value, By Geography, 2013-2025 ($Million)
  • Table 36: Non-Linear Metamaterials Market Value, By Application, 2013-2025 ($Million)
  • Table 37: Aerospace & Defense: Non-Linear Market Value, By Geography, 2013-2025 ($Million)
  • Table 38: Medical Instrumentation: Non-Linear Market Value, By Geography, 2013-2025 ($Million)
  • Table 39: Optics: Non-Linear Market Value, By Geography, 2013-2025 ($Million)
  • Table 40: Telecommunication: Non-Linear Market Value, By Geography, 2013-2025 ($Million)
  • Table 41: Non-Linear Metamaterials Market Value, By Geography, 2013-2025 ($Million)
  • Table 42: Antennas Market Value, 2013-2025 ($Million)
  • Table 43: Superlens Market Value, 2013-2025 ($Million)
  • Table 44: Cloaking Devices Market Value, 2013-2025 ($Million)
  • Table 45: Absorbers Market Value, 2013-2025 ($Million)
  • Table 46: Artificial Materials Market Value, By Application, 2013-2025 ($Million)
  • Table 47: Aerospace & Defense: Market Value, By Type, 2013-2025 ($Million)
  • Table 48: Aerospace & Defense: Market Value, By Geography, 2013-2025 ($Million)
  • Table 49: Medical Instrumentation: Market Value, By Type, 2013-2025 ($Million)
  • Table 50: Medical Instrumentation: Market Value, By Geography, 2013-2025 ($Million)
  • Table 51: Optics: Market Value, By Type, 2013-2025 ($Million)
  • Table 52: Optics: Market Value, By Geography, 2013-2025 ($Million)
  • Table 53: Comparison of Biosensors
  • Table 54: Sensing: Market Value, By Type, 2013-2025 ($Million)
  • Table 55: Sensing: Market Value, By Geography, 2013-2025 ($Million)
  • Table 56: Telecommunication: Market Value, By Type, 2013-2025 ($Million)
  • Table 57: Telecommunication: Market Value, By Geography, 2013-2025 ($Million)
  • Table 58: Metamaterial Market Value, By Geography, 2013-2025 ($Million)
  • Table 59: North America: Artificial Materials Market Value, By Type, 2013-2025 ($Million)
  • Table 60: North America: Market Value, By Application, 2013-2025 ($Million)
  • Table 61: Europe: Artificial Materials Market Value, By Type, 2013-2025 ($Million)
  • Table 62: Europe: Market Value, By Application, 2013-2025 ($Million)
  • Table 63: APAC: Artificial Materials Market Value, By Type, 2013-2025 ($Million)
  • Table 64: APAC: Market Value, By Application, 2013-2025 ($Million)
  • Table 65: ROW: Artificial Materials Market Value, By Type, 2013-2025 ($Million)
  • Table 66: ROW: Market Value, By Application, 2013-2025 ($Million)
  • Table 67: New Projects/New Product Development
  • Table 68: Partnerships/Contracts
  • Table 69: Other Developments

List of Figures

  • Figure 1: Market Segmentation
  • Figure 2: Determining The Commercialization Year of Applications
  • Figure 3: Market Segmentation
  • Figure 4: History and Evolution
  • Figure 5: Impact Analysis of Market Drivers, 2015-2025
  • Figure 6: Impact Analysis of Market Restraints, 2015-2025
  • Figure 7: Value Chain Analysis
  • Figure 8: Analysis of Key Growth Strategies
  • Figure 9: Applied EM: Company Snapshot
  • Figure 10: Applied EM: Product Portfolio
  • Figure 11: Applied EM: SWOT Analysis
  • Figure 12: JEM Engineering: Company Snapshot
  • Figure 13: JEM Engineering: Antenna Designs
  • Figure 14: JEM Engineering: SWOT Analysis
  • Figure 15: Kymeta Corporation: Company Snapshot
  • Figure 16: Kymeta Corporation: Product Portfolio
  • Figure 17: Kymeta Corporation: SWOT Analysis
  • Figure 18: Metamagnetics: Company Snapshot
  • Figure 19: Metamagnetics: Product Portfolio
  • Figure 20: Metamaterial Technologies Inc.: Company Snapshot
  • Figure 21: Microwave Measurement Systems Llc: Company Snapshot
  • Figure 22: Microwave Measurement Systems Llc: Product Portfolio
  • Figure 23: Nanohmics Inc.: Company Snapshot
  • Figure 24: Nanosonic Inc.: Company Snapshot
  • Figure 25: Plasmonics Inc.: Company Snapshot
  • Figure 26: Plasmonics Inc.: Product Portfolio
  • Figure 27: Teraview: Company Snapshot
  • Figure 28: Teraview: Product Portfolio
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