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バイオインスパイアードおよび表面ナノ加工:技術・アプリケーション・世界市場

Bioinspired and Nanoengineered Surfaces: Technologies, Applications and Global Markets

発行 BCC Research 商品コード 273932
出版日 ページ情報 英文 212 Pages
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バイオインスパイアードおよび表面ナノ加工:技術・アプリケーション・世界市場 Bioinspired and Nanoengineered Surfaces: Technologies, Applications and Global Markets
出版日: 2018年03月09日 ページ情報: 英文 212 Pages
概要

世界の表面ナノ加工市場規模は、2017年の4億290万米ドルから2022年までに17億米ドルへ、31.7%のCAGR (年間複合成長率) で拡大すると見込まれています。

当レポートでは、バイオミメティックスおよびバイオインスパイアード設計による発展・創造性の領域と共に、世界の表面ナノ加工市場について調査し、データ実績と推計およびCAGR予測を含めた世界市場の動向分析、製造技術および固液、固固、固気、生物学的および光インターフェースといった特徴の分析、各分野におけるアプリケーションの分析、特許分析などをまとめています。

第1章 イントロダクション

第2章 サマリー・ハイライト

第3章 技術概要

  • サマリー
  • バイオメトリック・表面ナノ加工
  • 製造技術
  • 特徴
  • バイオメトリックNESシステムの研究開発
  • 合成NESシステムの研究開発
  • NESシステムの商業開発・アプリケーション
  • 市場区分、規模および成長動向
  • 特許分析

第4章 表面ナノ加工市場のアプリケーション:生物製剤・生物医学、航空宇宙・海洋・軍事、自動車

  • サマリー
  • 商業的イニシアチブ:生物製剤・生物医学市場
  • 参入および成長:生物製剤・生物医学市場
  • 商業的イニシアチブ:自動車市場
  • 参入および成長:自動車市場
  • 世界市場の5ヵ年予測
  • 商業的イニシアチブ:航空宇宙・海洋・軍事市場
  • 参入および成長:航空宇宙・海洋・軍事市場
  • 世界市場の5ヵ年予測:航空宇宙・海洋・軍事アプリケーション

第5章 表面ナノ加工市場のアプリケーション:エレクトロニクス、エネルギー・環境、マテリアル

  • サマリー
  • 商業的イニシアチブ:エレクトロニクスアプリケーション
  • 市場、参入および成長:エレクトロニクスアプリケーション
  • 世界市場の5ヵ年予測:エレクトロニクス
  • 商業的イニシアチブ:エネルギー・環境
  • 市場、参入および成長:エネルギー・環境
  • 世界市場の5ヵ年予測:エネルギー・環境
  • 商業的イニシアチブ:マテリアル
  • 市場、参入および成長:マテリアル
  • 世界市場の5ヵ年予測:マテリアル

第6章 表面ナノ加工市場のアプリケーション:光学、テキスタイル、その他市場

  • サマリー
  • 商業的イニシアチブ:光学
  • 市場、参入および成長:光学
  • 世界市場の5ヵ年予測:光学
  • 商業的イニシアチブ:テキスタイル
  • 市場、参入および成長:テキスタイル
  • 世界市場の5ヵ年予測:テキスタイル
  • 商業的イニシアチブ:その他市場
  • 市場、参入および成長:その他市場
  • 世界市場の5ヵ年予測:その他市場

第7章 市場アプリケーションの地域区分

  • サマリー
  • 生物製剤/生物医学市場におけるNESの発展
  • 自動車市場におけるNESの発展
  • 航空宇宙・海洋・軍事市場におけるNESの発展
  • エレクトロニクス市場におけるNESの発展
  • エネルギー・環境市場におけるNESの発展
  • マテリアル市場におけるNESの発展
  • 光学市場におけるNESの発展
  • テキスタイル市場におけるNESの発展
  • その他市場市場におけるNESの発展
  • 企業数・地域分布

第8章 産業構造

  • サマリー
  • 産業構造
  • 主要企業
  • 企業プロファイル

付録:用語集

BCC Researchについて

図表

List of Tables

  • Summary Table: Global Market for Nanoengineered Surfaces, by Main Application Sector, Through 2022 ($ Millions)
    • Table 1: Techniques Used to Fabricate Nanoengineered Surfaces
    • Table 2: Properties Exploited by Bioinspired Nanoengineered Surfaces (NES)
    • Table 3: Wetting and Adhesion Applications of Biomimetic Analogs: Bioinspired from Plant Species
    • Table 4: Wetting and Adhesion Applications of Biomimetic Analogs: Bioinspired from Insects, Reptiles and Marine Species
    • Table 5: Optical Applications of Biomimetic Analogs: Bioinspired from Insects, Reptiles and Marine Species
    • Table 6: Other Applications of Biomimetic Analogs: Bioinspired from Various Species
    • Table 7: Applications of Synthetic Nanoengineered Surfaces
    • Table 8: Main Industrial Application Sectors and End Uses Identified for Nanoengineered Surface Technologies
    • Table 9: Global Market for Nanoengineered Surfaces, by Main Application Sector, Through 2022 ($ Millions)
    • Table 10: Application Interests of Leading IP Portfolio Holders: Superhydrophobics
    • Table 11: Application Interests of Leading IP Portfolio Holders: Superhydrophilics
    • Table 12: Main Commercial Biological/Biomedical Developments and Market End Uses for Nanoengineered Surface Technologies
    • Table 13: Potential Longer-term Commercial Biological/Biomedical Developments for Nanoengineered Surface Technologies
    • Table 14: Global Market for Biological and Biomedical Applications, Through 2022 ($ Millions)
    • Table 15: Main Commercial Automotive Developments and End-use Applications for Nanoengineered Surface Technologies
    • Table 16: Potential Longer-term Commercial Automotive End Uses for Nanoengineered Surfaces
    • Table 17: Global Market for Automotive Applications, Through 2022 ($ Millions)
    • Table 18: Main Commercial Aerospace, Marine and Military End-use Applications for Nanoengineered Surfaces Technologies
    • Table 19: Potential Longer-term Commercial Aerospace, Marine and Military End Uses for Nanoengineered Surfaces
    • Table 20: Global Market for Aviation, Marine and Military Applications, Through 2022 ($ Millions)
    • Table 21: Main Commercial Electronics End Use Applications for Nanoengineered Surfaces Technologies
    • Table 22: Potential Longer-term Commercial Electronics End Uses for Nanoengineered Surfaces
    • Table 23: Global Market for Electronic Nanoengineered Surfaces, Superhydrophobic Coating Applications, Through 2022 ($ Millions)
    • Table 24: Main Commercial Energy and Environmental End-use Applications for Nanoengineered Surfaces Technologies
    • Table 25: Potential Longer-term Commercial Energy Market End Uses for Nanoengineered Surfaces
    • Table 26: Potential Longer-Term Commercial Environmental Market End Uses for Nanoengineered Surfaces
    • Table 27: Global Market for Energy and Environmental Nanoengineered Surfaces Applications, Through 2022 ($ Millions)
    • Table 28: Main Commercial Materials Market End Use Applications for Nanoengineered Surfaces Technologies
    • Table 29: Potential Longer-term Materials Market End Use Applications for Nanoengineered Surfaces Technologies
    • Table 30: Global Market for Nanoengineered Surfaces Applications in Building Materials, Through 2022 ($ Millions)
    • Table 31: Main Commercial Optical Market End-use Applications for Nanoengineered Surfaces Technologies
    • Table 32: Potential Longer-term Commercial Optical Market End Uses for Nanoengineered Surfaces
    • Table 33: Global Market for Nanoengineered Surfaces Applications in Optics, Through 2022 ($ Millions)
    • Table 34: Main Commercial Textile Market End-use Applications for Biomimetic and Nanoengineered Surface Technologies
    • Table 35: Commercial Fluorine and Fluorine-free Textile Waterproofing Finishes
    • Table 36: Leading Producers of Water-resistant Outdoor Apparel
    • Table 37: Potential Longer-term Commercial Textile Market End Uses for Nanoengineered Surfaces
    • Table 38: Global Market for Nanoengineered Surfaces Applications in Textiles, Through 2022 ($ Millions)
    • Table 39: Main Commercial Other Market End Use Applications for Nanoengineered Surfaces Technologies
    • Table 40: Potential Longer-term Commercial Other Market End Uses for Nanoengineered Surfaces
    • Table 41: Global Market for Nanoengineered Surfaces Applications in Others, Through 2022 ($ Millions)
    • Table 42: Nanoengineered Surfaces Developments in Commercial Biological/Biomedical Market, by Company and Country
    • Table 43: Global Market for Nanoengineered Surfaces in Biomedical Applications, by Region, Through 2022 ($ Millions)
    • Table 44: Nanoengineered Surfaces Developments in Commercial Automotive Market, by Company and Country
    • Table 45: Global Market for Nanoengineered Surfaces in Automotive Applications, by Region, Through 2022 ($ Millions)
    • Table 46: Nanoengineered Surfaces Developments in Commercial Aerospace, Marine and Military Markets, by Company and Country
    • Table 47: Global Market for Nanoengineered Surfaces in Aviation, Marine and Military Applications by Region, Through 2022 ($ Millions)
    • Table 48: Nanoengineered Surfaces Developments in Electronics Markets, by Company and Country
    • Table 49: Global Market for Nanoengineered Surfaces in Electronic Applications, by Region, Through 2022 ($ Millions)
    • Table 50: Nanoengineered Surfaces Developments in Energy and Environmental Markets, by Company and Country
    • Table 51: Global Market for Nanoengineered Surfaces in Energy and Environmental Applications, by Region, Through 2022 ($ Millions)
    • Table 52: Nanoengineered Surfaces Developments in Commercial Materials Markets, by Company and Country
    • Table 53: Global Market for Nanoengineered Surfaces in Building Materials, by Region, Through 2022 ($ Millions)
    • Table 54: Nanoengineered Surfaces Developments in Optical Markets, by Company and Country
    • Table 55: Global Market for Nanoengineered Surfaces in Optics, by Region, Through 2022 ($ Millions)
    • Table 56: Nanoengineered Surfaces Developments in Textile Markets, by Company and Country
    • Table 57: Global Market for Nanoengineered Surfaces in Textile Applications, by Region, Through 2022 ($ Millions)
    • Table 58: Nanoengineered Surfaces Developments in Other Markets, by Company and Country
    • Table 59: Global Market for Nanoengineered Surfaces in Other Applications, Through 2022 ($ Millions)
    • Table 60: Global Distribution of Companies with Active NES Commercial Interests, by Country, October 2017 (Number/%)
    • Table 61: North American Companies Commercially Developing NES Applications
    • Table 62: Foreign Organizations Developing NES Applications

List of Figures

  • Summary Figure: Global Market for Nanoengineered Surfaces, by Main Application Sector, 2016-2022 ($ Millions)
    • Figure 1: Global Market for Nanoengineered Surfaces, by Main Application Sector, 2017-2022 ($ Millions)
    • Figure 2: Global Commercial Growth Market for Nanoengineered Surfaces, 2017-2022 ($ Millions)
    • Figure 3: Superhydrophobic Patents Issued: 2007-2017 (No. of Patents, Total: 1,152)
    • Figure 4: Superhydrophilic Patents Issued: 2007-2017 (No. of Patents, Total: 313)
    • Figure 5: U.S. vs. Foreign Superhydrophobic Patents Issued: 2007-Sept. 19, 2017 (No. of patents: Total: 1,085)
    • Figure 6: U.S. vs. Foreign Superhydrophilics Patents Issued: 2007-Sept. 19, 2017 (No. of Patents, Total: 299)
    • Figure 7: Major Superhydrophobic IP Portfolios: 2007-Sept. 19, 2017 (No. of U.S. Patents Issued, Total: 218)
    • Figure 8: Major Superhydrophilic IP Portfolios: 2007-Sept. 19, 2017 (No. of U.S. Patents Issued, Total: 81)
    • Figure 9: Global Distribution of Companies with Active NES Commercial Interests by Country, October 2017 (%)
目次
Product Code: AVM089B

Report Highlights

The global market for nanoengineered surfaces will grow from $402.9 million in 2017 to $1.7 billion by 2022 with a compound annual growth rate (CAGR) of 31.7% for the period of 2017-2022.

Report includes:

  • 63 tables
  • An overview of the global market for nanoengineered surfaces, with coverage of the evolution and inspiration through biomimetics and bioinspired designs
  • Analyses of global market trends, with data from 2016, 2017, and projections of compound annual growth rates (CAGRs) through 2022
  • Discussion of fabrication techniques, and properties such as solid-liquid interfaces, solid-solid interfaces, solid-vapor interfaces, biological interfaces, and optical interfaces
  • Examination of applications in terms of end uses and commercial prospects in the areas of biomedical, solar energy, electronics and displays, industrial process management, metal corrosion and wear, personal care such as cosmetics and hearing aids, photonics, protective coatings, and sensors
  • Patent analyses
  • Company profiles of major players in the market, including Agency For Science, Technology And Research (A*Star), General Electric Global Research, Italcementi S.P.A, Liquipel Llc , Slips Technologies Inc., and Ultratech International Inc.

Report Scope

The scope of this report is the global market for all products based on bioinspired and nanoengineered surfaces.

An overview of current technology explores pioneering R&D including unique capillary and optical interaction properties, various fabrication methods as well as first-generation commercial application five-year revenue projections for biomimetically inspired NES. In addition, an analysis of superhydrophobic and superhydrophilic patents identifies the most active global players.

  • Chapter 4: Market applications for the biological/biomedical, automotive, aerospace/marine/military sectors. In particular, it identifies five-year commercial revenue projections and potential market developments in these segments. The biological/biomedical market includes oil/water repellency, antibacterial surface treatments, antibiofouling, dry adhesion and synthetic gradient refractive index optics. The automotive market includes glass, exterior paint and plastics with an emphasis on water/dirt/insect repellency, and antifrost, antifog and antireflective surface treatments. The aerospace market focuses on protection coatings; water, ice, dirt and corrosion repellency and optical pilot laser protection. The marine and military markets focus on antibiofouling and drag reduction, and anti-fog windshields and anti-ice visors, respectively.
  • Chapter 5: Market applications for the electronics, energy/environmental and materials sectors. In particular, it identifies five-year commercial revenue projections and potential market developments in these segments. The focus of the electronics market is superhydrophobic waterproofing and oleophobicity for mobile communication devices such as cell phones and tablets as well as hearing aids. The energy/environmental market includes long shelf life batteries, fuel cell components, HVAC heat exchanger coils, oil and gas flow equipment lubricants, oil/water separation and remediation, rigid and flexible solar panels, water harvesting, and wind and steam turbines. The materials market segment includes self-cleaning aluminum and cement/concrete, as well as glass, plastic architectural building materials and sanitary ceramics/tileware.
  • Chapter 6: Market applications for the optics, textiles and other segments. In particular, it identifies five-year commercial revenue projections and potential market developments in these segments. The optics segment includes antireflective and 3D mobile device displays while textiles includes indoor and outdoor waterproofing such as high-performance sports apparel, consumer packaging, sensors, and liquid processing/manufacturing.
  • Chapter 7: Geographic segmentation of market applications. This chapter focuses on the geographic segmentation of companies involved in the nine segments detailed in chapters 4, 6 and 6. Although U.S. companies predominate in NES developments in all commercial market sectors, there is wide global interest.
  • Chapter 8: Industry structure. More than 60 companies have been identified as having significant development operations involving the commercial exploitation of nanoengineered surfaces. These companies are targeting a variety of market sectors and a broad range of applications. Detailed profiles of their specific market interests and current status are outlined.

Analyst Credentials

John Oliver is the founder of Innov8 Solutions, which provides advanced materials consultation services to various clients. He has more than 30 years of industrial research and development experience in surface and colloid science, spanning a wide range of materials technology. Working as a senior scientist at Xerox Research Centre of Canada he developed an invaluable understanding in advanced materials used in digital printing technologies such as xerography and ink-jet printing. Following his involvements with the Alberta Research Council and several local universities, his interests have evolved into the realm of nanomaterials used in microsystems device integration.

He has a Ph.D. in Physical Chemistry from McGill University, and a BSc degree in Chemistry from the University of Surrey. His publications include more than 40 peer-reviewed technical articles, 20 patents and one book on Adhesion in Cellulosic and Wood-Based Composites. Between 2005 and 2009, he was the editor of BCC Research's bimonthly Nanoparticle News and has authored ten BCC Research technical reports.

Table of Contents

Chapter 1: Introduction

  • Motivation
  • Study Goal and Objectives
  • Scope of Report
  • Intended Audience
  • Sources of Information
  • Methodology
  • Geographic Breakdown
  • Analyst's Credentials
  • Related BCC Research Reports

Chapter 2: Summary and Highlights

Chapter 3: Technology Overview

  • Summary
  • Biomimetic and Nanoengineered Surfaces
    • Definition
  • Fabrication Techniques
  • Properties
    • Solid Liquid Interactions
    • Solid-Vapor Interactions
    • Solid-Solid Interactions
    • Adhesion
    • Biological Interactions
    • Optical Interactions
    • Other Interactions
  • Research and Development of Biomimetic NES Systems
    • Wetting and Adhesion Management
    • Optical Applications
    • Other Applications of Bioinspired Surfaces
  • Research and Development of Synthetic NES Systems
  • Commercial Developments and Applications of NES Systems
    • Biological and Biomedical
    • Automotive
    • Aviation, Marine and Military
    • Electronics
    • Energy and Environmental
    • Materials: Architectural and Industrial
    • Optics
    • Textiles
    • Other
  • Market Sectors, Size and Growth Trends
  • Patent Analysis
    • Importance of Patents
    • Search Strategy
    • USPTO Ten-year Search Trend
    • U.S. vs. Foreign Patent Activity
    • Patent Portfolios and Applications of Leading Organizations

Chapter 4: Nanoengineered Surfaces Market Applications: Biological and Biomedical; Aerospace, Marine and Military; and Automotive

  • Summary
  • Commercial Initiatives in Biological and Biomedical Markets
    • Near Term
    • Potential Longer-term Commercial Initiatives
  • Entry and Growth in Biological and Biomedical Markets
    • Antibacterial Sterilization
  • Commercial Initiatives and Status in Automotive Markets
    • Near Term
    • Potential Longer-term Commercial Initiatives
  • Markets, Entry and Growth in Automotive Sector
    • Glass
    • Paint Protective Coatings
    • Plastics
  • Five-year Global Market Projection
  • Commercial Initiatives in Aerospace, Marine and Military Markets
    • Near Term
    • Potential Longer-term Commercial Initiatives
  • Markets, Entry and Growth
    • Aviation
    • Marine
    • Military
  • Five-year Global Market Projection for Aviation, Marine and Military NES Applications

Chapter 5: Nanoengineered Surfaces Market Applications: Electronics; Energy and Environmental; and Materials

  • Summary
  • Commercial Initiatives in Electronics Applications
    • Near Term
    • Potential Longer-term Commercial Initiatives
  • Markets, Entry and Growth in Electronics Applications
    • Audio/Hearing Aids
    • Mobile Communication Devices: Smartphones/Headsets, E-Readers, Laptops, Sensors, Tablets and Wearables
  • Five-year Global Market Projection in Electronics
  • Commercial Initiatives in Energy and Environmental Markets
    • Near Term
    • Potential Longer-term Commercial Initiatives
  • Markets, Entry and Growth in Energy and Environmental Uses
    • Battery Technology
    • Fuel Cells
    • Heat Exchangers
    • Oil and Gas Flow Equipment and Lubrication
    • Solar Panels
    • Water Harvesting
  • Five-year Global Market Projection
  • Commercial Initiatives in Materials Market Applications
    • Near Term
    • Potential Longer-term Commercial Initiatives
  • Markets, Entry and Growth in Materials
    • Aluminum for Commercial and Residential Buildings
    • Architectural Concrete
    • Glass for Commercial and Residential Windows
    • Other Miscellaneous Materials and Market Applications
  • Five-year Global Market Projection for Building Materials

Chapter 6: Market Applications for Nanoengineered Surfaces: Optics; Textiles; and Other Markets

  • Summary
  • Commercial Initiatives in Optical Market Applications
    • Near Term
    • Potential Longer-term Commercial Initiatives
  • Markets, Entry and Growth in Optics
    • Mobile Device Accessories Market
    • Mobile Security Market
    • Nanophotonic Materials
    • Optical Components
    • Vision/Surveillance
  • Five-year Global Market Projection for Optics Applications
  • Commercial Initiatives in Textile Applications
    • Near Term
    • Incumbent Market Products and Challenges
    • Potential Longer-term Commercial Initiatives
  • Markets, Entry and Growth in Textile Applications
    • Indoor Fabrics
    • Outdoor Apparel
  • Five-year Global Market Projection in Textile Applications
  • Commercial Initiatives in Other Applications
    • Near Term
    • Potential Longer-term Commercial Initiatives
  • Markets, Entry and Growth in Other Market Applications
    • Consumer Packaging
    • Liquid Processing Equipment
    • Sensors
  • Five-year Global Market Projection in Other Markets

Chapter 7: Geographic Segmentation of Market Applications

  • Summary
  • NES Developments in Biological/Biomedical Markets
  • NES Developments in Automotive Markets
  • NES Developments in Aerospace, Marine and Military Markets
  • NES Developments in Electronic Markets
  • NES Developments in Energy and Environmental Markets
  • NES Developments in Materials Markets
  • NES Developments in Optical Markets
  • NES Developments in Textile Markets
  • NES Developments in Other Markets
  • Number of Companies and Geographic Distribution

Chapter 8: Industry Structure

  • Summary
  • Industry Structure
  • Major Players
    • North American Companies
    • Foreign Companies
  • Company Profiles

Appendix: Abbreviations, Acronyms, Symbols and Units

  • Abbreviations and Acronyms
  • Symbols and Units

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