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フレキシブルエレクトロニクス向け製造イノベーション

Manufacturing Innovations for Flexible Electronics

発行 Frost & Sullivan 商品コード 492729
出版日 ページ情報 英文 58 Pages
納期: 即日から翌営業日
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フレキシブルエレクトロニクス向け製造イノベーション Manufacturing Innovations for Flexible Electronics
出版日: 2017年04月13日 ページ情報: 英文 58 Pages
概要

フレキシブルエレクトロニクス(FE)産業は、様々なステークホルダーの様々な実現技術導入による参入が過熱しており、FE産業の成長を促進しております。

当レポートでは、フレキシブルエレクトロニクス向け製造イノベーションについて調査分析を行い、市場概要、産業動向、フレキシブルエレクトロニクスの可能性について考察するとともに、革新の動向、競合状況、市場促進因子/抑制因子などについて包括的に分析し、まとめています。

第1章 エグゼクティブサマリー

第2章 フレキシブルエレクトロニクスのイントロダクション

  • フレキシブルエレクトロニクスとは?

第3章 産業の動向

  • 産業動向分析のイントロダクション
  • 先進素材の発展がフレキシブルエレクトロニクス製造を可能に
  • 積層印刷技術がよく利用される製造技術
  • アジア太平洋地域と北米が研究結果の特許を多く取得している
  • 政府と規制機関が世界的に主な資金調達源
  • マクロ環境分析:PESTEL分析

第4章 フレキシブルエレクトロニクスの潜在性評価

  • 機能性と効率的な製造工程が主な長所
  • ディスプレイ、太陽光発電、センサーが主要製品
  • フレキシブルエレクトロニクスの影響を大きく受けるのは消費者家電とエネルギー産業
  • 技術的課題と市場の不安定さがフレキシブルエレクトロニクスの抑制因子

第5章 革新と競合状況

  • アジア太平洋地域
  • 欧州
  • 北米
  • 製造の革新に注目
  • ニッチ分野に注目する地域に競争上の優位性
  • Polyera
  • FlexEnable
  • ミネソタ大学

第6章 市場促進因子と抑制因子

  • 消費者向けウェアラブルの導入増加や市資本投資の増加がフレキシブルエレクトロニクスにおける製造イノベーションを促進
  • 主な促進因子
  • 急速な製品の入れ替えと既存技術との競合の激化が抑制因子
  • 主な抑制因子

第7章 戦略分析

  • 製品:用途別影響マトリクス
  • 応用分野別製品の影響
  • 革新エコシステム評価
  • 主な戦略上の問題

第8章 主な特許

第9章 主な連絡先

第10章 Frost & Sullivanについて

目次
Product Code: D79E

Innovation Landscape Across the Globe Accelerating Developments in Manufacturing Flexible Electronics Cost Effectively

The flexible electronics (FE) industry is witnessing enthusiastic participation from various stakeholders who are introducing diverse enabling technologies which in turn are propelling the growth of FE industry. With the convergence of such enabling technologies, FE is expected to grow into a key technology sector with immense potential. The next-generation semiconductor technology, which is currently in its infancy, is expected to find applications in major industries, such as consumer electronics, healthcare, and photovoltaics. With its potential to be integrated with many industries, manufacturing FE is expected to be the next major job creating technology thus harnessing immense interest from government and legislative bodies.

Key factors that are decreasing the potential for FE are advancement in material sciences and manufacturing processes that are unable to meet cost-performance demand. Constraints in development in this sector are mainly due to lack of standardized tools, an industry-accepted manufacturing technique, integration, and maintenance standards.

Manufacturing techniques for FE need standardization and further capital intensive research initiatives to accelerate the market adoption of FE products. This requires developing a scalable manufacturing process that focuses more on process control which reduces production cost and enables product variability.

Major stakeholders involved in the FE industry are actively encouraged by government bodies, thus making the innovation landscape highly effective. APAC and North America (NA) are witnessing an active innovation scenario focusing on niche areas in the FE industry while the European Union (EU) has a broader focus ranging from manufacturing to differentiated product developments.

This technology report captures manufacturing innovations that enables production of cost-effective flexible electronics products.

Table of Contents

1.0 Executive Summary

  • 1.1 Research Scope
  • 1.2 Research Methodology
  • 1.2.1 Research Methodology Explained
  • 1.3 Key Findings - Significance, R&D Focus Areas, and Applications
  • 1.4 Key Findings - Global Challenges and Scenario, Industry Initiatives

2.0 Introduction to Flexible Electronics

  • 2.1 What is Flexible Electronics?

3.0 Industry Trends

  • 3.1 Introduction to Industry Trend Analysis
  • 3.2 Advanced Material Development Enabling Flexible Electronics Manufacturing
  • 3.3 Additive Printing Technology As a Preferred Manufacturing Technique
  • 3.4 APAC and NA are Actively Patenting the Results of Their Research
  • 3.5 Government and Regulatory Bodies Major Source of Funding across the Globe
  • 3.6 Macro Environment Perspective - PESTLE Analysis for Flexible Electronics Technology

4.0 Assessing the Potential for Flexible Electronics

  • 4.1 Functionality and Potentially Efficient Manufacturing Process - Key Advantages
  • 4.2 Displays, Photovoltaics and Sensors are Major Products
  • 4.3 Consumer Electronics and Energy are Primary Industries with High Impact Due to Flexible Electronics
  • 4.4 Technological Challenges and Market Uncertainty undermining Potential of Flexible Electronics

5.0 Innovation and Competitive Landscape

  • 5.1 Innovation Landscape - APAC
  • 5.2 Innovation Landscape - EU
  • 5.3 Innovation Landscape - NA
  • 5.4 Evolving Innovation Landscape Focuses on Manufacturing Innovation
  • 5.5 Regions Focusing on Niche Space to Ensure Competitive Advantage
  • 5.6 Key Innovation Profile - Polyera
  • 5.7 Key Innovation Profile - FlexEnable
  • 5.8 Key Innovation Profile - University of Minnesota

6.0 Drivers and Restraints

  • 6.1 Increased Adoption of Consumer Wearables and Increased Capital Investment Driving Manufacturing Innovations in Flexible Electronics
  • 6.2 Key Drivers Explained
  • 6.3 Rapid Product Replacement and Stiff Competition from Existing Technology prime restraints
  • 6.4 Key Restraints Explained

7.0 Strategic Analysis

  • 7.1 Product - Application Impact Matrix
  • 7.1.1 Impact of Products on Application Areas Explained
  • 7.2 Innovation Ecosystem Assessment
  • 7.3 Key Questions Strategic Questions

8.0 Key Patents

  • 8.1 Key Patents - Transparent Electronics
  • 8.1 Key Patents - Transparent Electronics (continued)

9.0 Key Industry Contacts

  • 9.1 Industry Contacts
  • Legal Disclaimer

10.0 The Frost & Sullivan Story

  • 10.1 The Frost & Sullivan Story
  • 10.2 Value Proposition: Future of Your Company & Career
  • 10.3 Global Perspective
  • 10.4 Industry Convergence
  • 10.5 360° Research Perspective
  • 10.6 Implementation Excellence
  • 10.7 Our Blue Ocean Strategy
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