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ナノテクノロジー・先進材料市場レビュー:2019年

2019 Nanotechnology and Advanced Materials Research Review

発行 BCC Research 商品コード 917145
出版日 ページ情報 英文 255 Pages
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ナノテクノロジー・先進材料市場レビュー:2019年 2019 Nanotechnology and Advanced Materials Research Review
出版日: 2019年11月18日 ページ情報: 英文 255 Pages
概要

当レポートでは、BCC Researchが2019年に出版したナノテクノロジーおよび先進材料関連のレポートから特定の調査カテゴリーのレポートを選定し、各種技術の現状と開発動向、関連法規制およびその他の市場影響因子の分析、今後の市場の展望などを抜粋し、まとめています。

第1章 序論

第2章 ナノファイバーの世界市場および技術

  • イントロダクション
  • サマリー・ハイライト
  • 市場・技術の背景事情
    • ナノマテリアルとナノファイバー
    • ナノテクノロジー産業
    • ナノファイバーの歴史における画期的な出来事と近年の出来事
    • ナノファイバーの現在/将来の活用分野

第3章 エネルギー用途におけるナノテクノロジー

  • イントロダクション
  • サマリー・ハイライト
  • 市場・技術背景
    • ナノマテリアル・ナノデバイスの概説
    • ナノマテリアル・ナノデバイスの主なエネルギー用途
    • 近年の発展
    • 全体的な市場規模・区分

第4章 先進セラミックスおよびナノセラミックス粉末の世界市場

  • イントロダクション
  • サマリー・ハイライト
  • 市場および技術の背景
    • 先進セラミックス粉末の製造
    • 新しい製造プロセス
    • 材料
    • 先進構造セラミックスス
    • セラミックスコーティング
    • 技術課題
    • エンドユーザー産業
    • 世界の先進・ナノスケールセラミックス粉末市場

第5章 ナノ濾過の世界市場と技術

  • イントロダクション
  • サマリー・ハイライト
  • 市場・技術背景
    • 濾過、メンブレンベースの分離プロセスおよびナノ濾過
    • 濾過産業
    • ナノ濾過の歴史におけるマイルストーンおよび近年の出来事
    • ナノ濾過の現在の用途・新しい用途

第6章 ナノテキスタイル:機会と世界市場

  • イントロダクション
  • サマリー・ハイライト
  • 市場・技術背景
    • ナノマテリアル・ナノテキスタイル
    • ナノテクノロジー産業
    • ナノテクノロジー・ナノテキスタイルの歴史におけるマイルストーンと近年の出来事
    • ナノテキスタイルの現在の・新しいアプリケーション

第7章 フォトニック結晶:素材・技術・世界市場

  • イントロダクション
  • サマリー
  • 概要
    • フォトニック結晶の基本
    • フォトニック結晶が将来有望である理由
    • フォトニック結晶の性質
    • 市場概要
    • フォトニック結晶のサイズ
    • 地域
    • フォトニックとエレクトロニクスの類似性
    • 光媒質の比誘電率が持つ影響
    • 回折
    • フォトニックバンドおよびバンドギャップ
    • 結晶素材
    • サイズ上の要素
    • フォトニック結晶製造の小史

第8章 乳白剤:酸化物・不透明ポリマー・特徴・用途・市場

  • イントロダクション
  • サマリー・ハイライト
  • 市場・技術背景
    • 乳白剤の主な種類
    • 乳白剤の主な用途区分

第9章 粉末冶金のアジア太平洋市場

  • イントロダクション
  • サマリーとハイライト
  • 技術・市場背景
    • 技術
    • 粉末冶金の用途
図表

List of Tables

  • Table 1: Global Market for Nanofiber Products, by Application, Through 2023
  • Table 2: Nanofibers, Nanorods, Nanoribbons, and Nanowires
  • Table 3: The Nanotechnology Industry, 2018
  • Table 4: Global Market for Nanotechnology, by Type, Through 2023
  • Table 5: Technological Milestones for Nanofibers
  • Table 6: Nanofiber Applications in Electronics and Optoelectronics, 2018
  • Table 7: Nanofiber Applications in the Mechanical/Chemical/Environmental Sector, 2018
  • Table 8: Nanofiber Applications for Sensors and Instrumentation, 2018
  • Table 9: Nanofiber Applications in the Energy Sector, 2018
  • Table 10: Nanofiber Applications in the Life Science Sector, 2018
  • Table 11: Nanofiber Applications in the Transportation Sector, 2018
  • Table 12: Nanofiber Applications for Thermal and Acoustic Insulation, 2018
  • Table 13: Nanofiber Applications in the Consumer Sector, 2018
  • Table 14: Nanofiber Applications in the Defense and Security Sector, 2018
  • Table 15: Other Nanofiber Applications, 2018
  • Table 16: Global Market for Nanotechnologies in Energy Applications, by Segment, Through 2023
  • Table 17: Major Types of Nanomaterials
  • Table 18: Global Energy-related Market for Nanotechnologies, Through 2023
  • Table 19: Global Energy-related Markets for Nanomaterials and Nanodevices, by Nanotechnology Type, Through 2023
  • Table 20: Global Energy-related Market Shares of Nanomaterials and Nanodevices, by Segment, 2017 vs. 2023
  • Table 21: Global Energy-related Markets for Nanomaterials and Nanodevices, by End Use, Through 2023
  • Table 22: Global Market for Advanced and Nanoscale Ceramic Powders, by Type, Through 2023
  • Table 23: Commonly Used Advanced Ceramic Material Families
  • Table 24: Plasma Synthesis of Ceramic Powders
  • Table 25: Advantages and Disadvantages of the Powder Synthesis Process
  • Table 26: Various Ceramic Materials Used in the Powder Synthesis Process
  • Table 27: Current and Potential Applications of Advanced Ceramic Materials
  • Table 28: Current and Potential Applications of Advanced Structural Ceramics
  • Table 29: Properties of Selected Commercial Alumina Ceramics
  • Table 30: Properties of Norzide YZ-110HS Tetragonal Zirconia Ceramics
  • Table 31: Fracture Toughness and Critical Flaw Sizes of Monolithic and Composite Ceramic Materials
  • Table 32: Properties of Monolithic Ceramics and Ceramic Composites
  • Table 33: Thermal Conductivity of Various Zirconia Ceramics
  • Table 34: General Applications for High-Performance Ceramic Coating Materials
  • Table 35: Representative Flame-and Plasma-Sprayed Materials, Melting or Softening Temperatures and Applications
  • Table 36: Ceramic Insulators and Their Properties
  • Table 37: Ceramic Substrate Materials and Their Properties
  • Table 38: Other Ceramic Substrate Materials for Electronics
  • Table 39: Dielectric Materials Used in the Formulation of Multilayered Ceramic Capacitors
  • Table 40: Characteristics of Various Fuel Cell Technologies
  • Table 41: Ceramic Powder End-User Industries, by Segment, 2017
  • Table 42: Global Market for Advanced Ceramic Components, Through 2023
  • Table 43: Global Market for Advanced and Nanoscale Ceramic Powders, by Application/Material, Through 2023
  • Table 44: Global Market Share of Advanced and Nanoscale Ceramic Powders, by Type, 2017-2023
  • Table 45: Global Market Share of Advanced and Nanoscale Ceramic Powders, by End Use, 2017-2023
  • Table 46: Global Market Share of Advanced and Nanoscale Ceramic Powders, by Country /Region, 2017-2023
  • Table 47: Global Market for Nanofiltration Membranes, by Application, Through 2024
  • Table 48: Membrane-based Separation Processes and Driving Forces, 2019
  • Table 49: Properties of Microfiltration, Ultrafiltration, Nanofiltration and Reverse Osmosis Membranes
  • Table 50: Global Market for Filtration, by Type, Through 2024
  • Table 51: Global Market for Membranes, by Region, Through 2024
  • Table 52: Applications of Membrane-based Separation Processes, 2019
  • Table 53: Technological Milestones for Membrane Separation Processes and Nanofiltration
  • Table 54: Global Patent Applications and Patents Issued on Nanofiltration, 1980-2018
  • Table 55: Applications of Nanofiltration in Water and Wastewater Treatment, 2019
  • Table 56: Applications of Nanofiltration in the Food and Beverage Sector, 2019
  • Table 57: Applications of Nanofiltration in the Chemical and Petrochemical Sector, 2019
  • Table 58: Applications of Nanofiltration in Metalworking, 2019
  • Table 59: Applications of Nanofiltration in the Life Sciences, 2019
  • Table 60: Applications of Nanofiltration in Other Areas, 2019
  • Table 61: Global Market for Nanotextiles, by Application, Through 2024
  • Table 62: Technologies Used to Manufacture Nanotextiles
  • Table 63: Global Market for Textiles, by Type, Through 2024
  • Table 64: The Nanotechnology Industry, 2019
  • Table 65: Global Market for Nanotechnology, by Type, Through 2024
  • Table 66: Technological Milestones for Nanotechnology and Nanotextiles
  • Table 67: Global Patent Applications and Patent Issued for Nanotextiles, 1990-2018
  • Table 68: Nanotextile Applications in the Apparel Industry, 2019
  • Table 69: Nanotextile Applications in the Life Science Sector, 2019
  • Table 70: Nanotextile Applications in the Mechanical/Chemical/Environmental Sector, 2019
  • Table 71: Nanotextile Applications in the Energy Sector, 2019
  • Table 72: Nanotextile Applications in the Defense and Security Sector, 2019
  • Table 73: Nanotextile Applications in the Household Industry, 2019
  • Table 74: Nanotextile Applications in the Other Consumer Products, 2019
  • Table 75: Global Sales of Photonic Crystals, by Component and Module, Through 2023
  • Table 76: Key Benefits of Photonic Crystal Structures
  • Table 77: Key Functional Attributes of Photonic Crystals
  • Table 78: Photonic Crystal Modules and Components, by End-User Industry, Through 2023
  • Table 79: Global Sales of Photonic Crystal Modules and Components, by Dimension, Through 2023
  • Table 80: Global Sales of Photonic Crystal Modules and Components, by Region, Through 2023
  • Table 81: Photonic Crystal Structure Types
  • Table 82: Global Market for Opacifiers, by Application, Through 2023
  • Table 83: Refractive Indices of Selected Materials
  • Table 84: Physical Properties of Opaque Polymers
  • Table 85: Asia-Pacific Powder Metallurgy Market, by Material, Through 2023
  • Table 86: Continuous-Sintering Furnaces, by Type
  • Table 87: Basic Hot Isostatic Pressing Process
  • Table 88: Basic Cold Isostatic Pressing Process
  • Table 89: Basic Metal Injection Molding Process
  • Table 90: Warm Compacting Process
  • Table 91: Metals Used in Additive Manufacturing
  • Table 92: Secondary Operations
  • Table 93: Water and Gas Atomization Process Comparisons
  • Table 94: Particulate Materials
  • Table 95: Commonly Used Advanced Ceramic Materials
  • Table 96: End Products That Use Powder Metallurgy Parts
  • Table 97: Major Objectives of the Powder Metallurgy Association of India

List of Figures

  • Figure 1: Global Market for Nanofiber Products, by Application, 2016-2023
  • Figure 2: Global Market Share for Nanotechnology, by Type, 2023
  • Figure 3: Global Patent Applications and Patents Issued Related to Nanofibers, 1990 - 2017
  • Figure 4: Global Market for Nanotechnologies in Energy Applications, by Segment, 2017-2023
  • Figure 5: Global Energy-related Market for Nanotechnologies, 2017-2023
  • Figure 6: Global Market Share for Advanced and Nanoscale Ceramic Powders, 2017-2023
  • Figure 7: Schematic of DC Arc Plasma Furnace Developed by the Japan National Research Institute for Metals
  • Figure 8: Los Alamos RF Plasma
  • Figure 9: Flowchart of Emulsion Process for the Production of Barium Titanater
  • Figure 10: Ceramic Powder End-User Industries Share, by Segment, 2017
  • Figure 11: Global Market for Nanofiltration Membranes, by Application, 2017-2024
  • Figure 12: Global Market Share for Filtration, by Type, 2024
  • Figure 13: Global Market Shares of Membranes, by Region, 2024
  • Figure 14: Global Patent Applications and Patents Issued on Nanofiltration, 1980-2018
  • Figure 15: Global Market for Nanotextiles, by Application, 2017-2024
  • Figure 16: Global Market Share for Textiles, by Type, 2024
  • Figure 17: Global Market Share for Nanotechnology, by Type, 2024
  • Figure 18: Global Patent Applications and Patent Issued for Nanotextiles, 1990-2018
  • Figure 19: Global Sales of Photonic Crystals, by Component and Module, 2017-2023
  • Figure 20: Global Market Shares of Opacifiers, by Application, 2018 and 2023
  • Figure 21: Asia-Pacific Powder Metallurgy Market, by Material, 2017-2023
  • Figure 22: Powder Metallurgy Process
目次
Product Code: NAN047H

Report Highlights:

The global market for nanotechnology should grow from $2.0 billion in 2018 to $2.1 billion by 2023 at a compound annual growth rate (CAGR) of 19.4% for the period of 2018-2023.

The global energy-related market for nanotechnologies should grow from $5.7 billion in 2018 to $10.0 billion by 2023 at a compound annual growth rate (CAGR) of 12.0% for the period of 2018-2023.

The global market for advanced ceramic components should grow from $73.3 billion in 2018 to $99.6 billion by 2023 at a compound annual growth rate (CAGR) of 6.3% for the period of 2018-2023.

Report Scope:

Nanotechnology with a combination of nanofiber materials is gaining rapid momentum in the global market. Nanofibers are used primarily in various membrane-based technologies. These technologies find their main fields of application in water and wastewater treatment, chemical processing, environmental remediation, oil and energy, food and beverage production, and life science.

Particularly in the plastic industry, the use of nanofibers as reinforcing agents for polymeric compounds is increasing at a very healthy pace, driven by the demand for new materials that are flexible and, at the same time, lightweight and strong. Also, in the life-science sector, there has been growing interest in the development of three-dimensional biocompatible materials that act as supporting structures to promote the growth of new cells and the engineering of tissue.

Geographically, China is one of the biggest markets for nanotechnology and advanced materials and companies are looking forward to expanding their business in China as well as the Asia-Pacific region. For instance, in April 2019, Toray Industries, one of the leading players in nanofiber materials, announced a plan to establish a manufacturing facility for microfiltration, ultrafiltration, nanofiltration, and reverse osmosis membranes in Foshan, China. Toray is already serving the fast-growing Chinese market by providing various types of membranes for water purification, desalination, and wastewater treatment.

Table of Contents

Chapter 1: Foreword

Chapter 2: Global Markets and Technologies for Nanofibers (NAN043E)

  • Introduction
    • Study Goals and Objectives
    • Reasons for Doing This Study
    • Intended Audience
    • Scope of Report
    • Methodology and Information Sources
    • Market Breakdown
    • Analyst's Credentials
    • Related BCC Research Reports
  • Summary and Highlights
  • Market and Technology Background
    • Nanomaterials and Nanofibers
    • The Nanotechnology Industry
    • Milestones in the History of Nanofibers and Recent Events
    • Current and Emerging Applications for Nanofibers

Chapter 3: Nanotechnology in Energy Applications (NAN044C)

  • Introduction
    • Study Goals and Objectives
    • Reasons for Doing This Study
    • Scope of Report
    • Information Sources
    • Methodology
    • Geographic Breakdown
    • Analyst's Credentials
    • Related BCC Research Reports
  • Summary and Highlights
  • Market and Technology Background
    • General Description of Nanomaterials and Nanodevices
    • Major Energy Applications of Nanomaterials and Nanodevices
    • Recent Developments
    • Overall Market Size and Segmentation

Chapter 4: Advanced Ceramics and Nanoceramic Powders (NAN015J)

  • Introduction
    • Reasons for Doing This Study
    • Study Goals and Objectives
    • Scope of Report
    • Intended Audience
    • Information Sources
    • Methodology
    • Geographic Breakdown
    • Analyst's Credentials
    • Related BCC Research Reports
  • Summary and Highlights
  • Market and Technology Background
    • Advanced Ceramic Powder Manufacturing
    • New Fabrication Processes
    • Materials
    • Advanced Structural Ceramics
    • Ceramic Coatings
    • Technical Issues
    • End-User Industries
    • Worldwide Market for Advanced and Nanoscale Ceramic Powders

Chapter 5: Global Markets and Technologies for Nanofiltration (NAN045C)

  • Introduction
    • Study Goals and Objectives
    • Reasons for Doing This Study
    • Intended Audience
    • Scope of Report
    • Methodology and Information Sources
    • Market Breakdown
    • Analyst's Credentials
    • Related BCC Research Reports
  • Summary and Highlights
  • Market and Technology Background
    • Filtration, Membrane-Based Separation Processes and Nanofiltration
    • The Filtration Industry
    • Milestones in the History of Nanofiltration and Recent Events
    • Current and Emerging Applications for Nanofiltration

Chapter 6: Nanotextiles: Opportunities and Global Markets (AVM183A)

  • Introduction
    • Study Goals and Objectives
    • Reasons for Doing This Study
    • Intended Audience
    • Scope of Report
    • Methodology and Information Sources
    • Market Breakdown
    • Analyst's Credentials
    • Related BCC Research Reports
  • Summary and Highlights
  • Market and Technology Background
    • Nanomaterials and Nanotextiles
    • The Nanotechnology Industry
    • Milestones in the History of Nanotechnology and Nanotextiles and Recent Events
    • Current and Emerging Applications for Nanotextiles

Chapter 7: Photonic Crystals: Materials, Technologies and Global Markets (AVM059C)

  • Introduction
    • Study Goals and Objectives
    • Reasons for Doing the Study
    • Scope of the Report
    • Intended Audience
    • Methodology and Information Sources
    • Geographic Breakdown
    • Analyst's Credentials
    • Related BCC Research Reports
  • Summary
  • Overview
    • Photonic Crystal Basics
    • Why Are Photonic Crystals Promising?
    • Attributes of Photonic Crystals
  • Market Overview
    • Photonic Crystal Dimensions
    • Geographic Regions
    • Analogy of Photonic Electronics
    • Effect of the Dielectric Constant of the Medium on Light
    • Diffraction
    • Photonic Bands and Band Gap
    • Crystal Materials
    • Dimensional Aspect
    • A Short History of Photonic Crystal Fabrication
    • Innovative Approaches to Photonic Crystal Fabrication

Chapter 8: Opacifiers: Oxides and Opaque Polymers, Characteristics, Applications and Markets (AVM195A)

  • Introduction
    • Study Goals and Objectives
    • Reasons for Doing This Study
    • Intended Audience
      • Recent Developments
    • Scope of the Report
    • Information Sources
    • Methodology
    • Geographic Breakdown
    • Analyst's Credentials
    • Related BCC Research Reports
  • Summary and Highlights
  • Market and Technology Background
    • Key Types of Opacifiers
    • Key Application Segments of Opacifiers

Chapter 9: Powder Metallurgy: Asia-Pacific Markets to 2023 (AVM194A)

  • Introduction
    • Study Goals and Objectives
    • Reasons for Doing This Study
    • Scope of Report
    • Information Sources
    • Methodology
    • Analyst's Credentials
    • Related BCC Research Reports
  • Summary and Highlights
    • Overview
  • Technology and Market Background
    • Technology
    • Powder Metallurgy Applications
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