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市場調查報告書

全球薄膜及超薄膜的技術、材料、市場

Global Markets, Technologies and Materials for Thin and Ultrathin Films

出版商 BCC Research 商品編碼 231923
出版日期 內容資訊 英文 203 Pages
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全球薄膜及超薄膜的技術、材料、市場 Global Markets, Technologies and Materials for Thin and Ultrathin Films
出版日期: 2016年08月22日 內容資訊: 英文 203 Pages
簡介

全球薄膜材料市場2015年約成長到98億美元,預計2016年之後以3.0%的年複合成長率發展,2021年達到約113億美元的市場規模。

本報告提供薄膜及超薄膜的技術,材料,市場趨勢相關調查分析,技術、材料種類與概要,各薄膜材料的用途/最終用途部門、地區、累積技術、薄膜厚度的收益成果、預測,各地區的薄膜材料的製造、消費預測,各最終用途部門的主要趨勢,主要企業簡介等彙整的結果,為您概述為以下內容。

第1章 簡介

第2章 摘要整理

第3章 概要

  • 敷料和薄膜
  • 厚膜、薄膜、超薄膜
  • 價格要素及製造工程
  • 薄膜技術的發展的過程和最近的趨勢
  • 薄膜、超薄膜的用途

第4章 薄膜、超薄膜的技術和材料

  • 簡介
  • 薄膜製造
  • 薄膜塗層
  • 薄膜累積流程
  • 獨立的薄膜
  • 薄膜材料
  • 最新技術開發趨勢
  • 其他相關研究開發活動
  • 技術趨勢

第5章 全球市場

  • 分析概要
  • 全球市場的摘要
  • 目前市場情形
  • 市場成長趨勢
    • 電子產品
    • 光電
    • 機器/化學
    • 能源
    • 光學薄膜
    • 生命科學
    • 感測器及其他應用
    • 技術趨勢
    • 地區趨勢
  • 市場預測

第6章 全球產業結構

  • 薄膜材料的主要製造商
  • 其他企業
  • 企業簡介

第7章 專利分析

圖表

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目錄
Product Code: SMC057C

REPORT HIGHLIGHTS

The global market for thin film materials reached nearly $9.9 billion and $9.8 billion in 2014 and 2015, respectively. The market is expected to reach nearly $11.3 billion by 2021 increasing at a compound annual growth rate (CAGR) of 3.0% from 2016 to 2021.

This report provides:

  • An overview of the global markets, technologies, and materials relating to ultrathin films.
  • Analyses of global market trends, with data from 2014 and 2015, estimates for 2016 and projections of CAGRs through 2021.
  • A review of the most common materials used for each thin film deposition process and identify new materials.
  • Information about new technological developments in the fabrication of thin films.
  • A look at several fields of application for thin film technologies and investigate emerging applications.
  • Relevant patent analysis.
  • An updated review of current producers of thin film materials.

SCOPE OF REPORT

This report provides an updated review of thin film technologies, including materials and production processes, and identifies current and emerging applications for these technologies.

BCC Research delineates the current market status for thin film materials, defines trends and presents growth forecasts for the next five years. The thin film material market is analyzed based on the following segments: deposition technology, film thickness, application and region. In addition, technological issues, including key events and the latest process developments, are discussed.

More specifically, the market analysis conducted by BCC Research for this report is divided into five sections.

In the first section, an introduction to the topic and a historical review of thin film technology are provided, including an outline of recent events. In this section, current and emerging applications for thin and ultrathin films are also identified and grouped in segments (electronics, optoelectronics, energy, life sciences, mechanical/chemical, optical coatings, sensors and instrumentation, and others).

The second section provides a technological review of thin films. This section offers a revised and detailed description of traditional and emerging materials used to manufacture thin and ultrathin films, typical fabrication methods and innovative deposition processes, and production methods for free-standing thin films. This section concludes with an analysis of the most important technological developments since 2014, including examples of significant patents recently issued or applied for, as well as highlighting the most active research organizations operating in this field. This part of the study also offers a brief discussion of the most relevant technological trends related to the materials used for thin film deposition.

The third section entails a global market analysis of materials for thin and ultrathin films. Global revenues (sales data in millions of dollars) are presented for each segment (application, deposition technology, film thickness and region), with actual data referring to the years 2014 and 2015, and estimates for 2016.

The analysis of current thin film material revenues is followed by a detailed presentation of market growth trends, based on industry growth, technological trends and regional trends. The third section concludes by providing projected revenues for thin film materials within each segment, together with forecast compound annual growth rates (CAGRs) for the period 2016 through 2021.

In the fourth section of the study, which covers global industry structure, the report offers a list of the leading manufacturers of thin film materials, together with a description of their products. The analysis includes a description of the geographical distribution of these firms and an evaluation of other key industry players. Detailed company profiles of the top players are also provided.

The fifth and final section includes an analysis of recently issued U.S. patents, with a summary of patents related to thin film materials, deposition methods and applications. Patent analysis is performed by region, country, assignee, patent category and deposition process.

ANALYST'S CREDENTIALS

Margareth Gagliardi, Chief Research Analyst in Advanced Materials for BCC Research, has more than 30 years of experience in the field of advanced materials, specializing in ceramic formulations, materials processing and new product development. She has held management positions in both manufacturing and R&D within U.S. and European firms producing electronic, mechanical, chemical and structural components. She holds a B.S. in Chemical Engineering and an M.S. in Ceramic Engineering.

Ms. Gagliardi has authored numerous BCC Research studies.

Table of Contents

CHAPTER 1 - INTRODUCTION

  • STUDY GOALS AND OBJECTIVES
  • REASONS FOR DOING THIS STUDY
  • INTENDED AUDIENCE
  • SCOPE OF REPORT
  • METHODOLOGY AND INFORMATION SOURCES
  • RELATED BCC RESEARCH REPORTS
  • ANALYST'S CREDENTIALS
  • BCC RESEARCH WEBSITE
  • DISCLAIMER

CHAPTER 2 - EXECUTIVE SUMMARY

  • SUMMARY TABLE GLOBAL MARKET FOR THIN FILM MATERIALS BY SEGMENT, THROUGH 2021 ($ MILLIONS)
  • SUMMARY FIGURE GLOBAL MARKET FOR THIN FILM MATERIALS BY SEGMENT, 2014-2021 ($ MILLIONS)

CHAPTER 3 - OVERVIEW

  • COATINGS AND FILMS
  • THICK, THIN AND ULTRATHIN FILMS
  • COST FACTOR AND MANUFACTURING PROCESSES
    • THICK FILM TECHNOLOGIES
      • TABLE 1: THICK FILM TECHNOLOGIES, 2016
    • THIN, NANO AND ULTRATHIN FILM TECHNOLOGIES
      • Technological and Market Trends in the Thin Film Industry
        • FIGURE 1: GLOBAL THIN FILM METHODS (EQUIPMENT, MATERIALS, SERVICES) MARKET SHARE BY GROUP OF TECHNOLOGIES, 2016 (%)
    • MILESTONES IN THE HISTORY OF THICK AND THIN FILM TECHNOLOGIES AND RECENT EVENTS
      • TABLE 2: THICK FILM, THIN FILM AND PRINTING PROCESSES: TECHNOLOGICAL MILESTONES
      • FIGURE 2: GLOBAL THIN FILMS PATENT APPLICATIONS AND PATENTS, 1971-2015 (NO. OF PATENTS)
    • APPLICATIONS FOR THIN AND ULTRATHIN FILMS
      • TABLE 3: APPLICATIONS FOR THIN FILMS , 2016
    • ELECTRONICS
      • TABLE 4: THIN FILMS IN ELECTRONICS, 2016
    • OPTOELECTRONICS
      • TABLE 5: THIN FILMS IN OPTOELECTRONICS, 2016
    • MECHANICAL/CHEMICAL
      • TABLE 6: THIN FILMS IN THE MECHANICAL/CHEMICAL SECTOR, 2016
    • SENSORS AND INSTRUMENTATION
      • TABLE 7: THIN FILMS IN THE SENSORS AND INSTRUMENTATION SECTOR, 2016
    • ENERGY
      • TABLE 8: THIN FILMS IN THE ENERGY SECTOR, 2016
    • OPTICAL COATINGS
      • TABLE 9: THIN FILMS IN THE OPTICAL COATINGS SECTOR, 2016
    • LIFE SCIENCES
      • TABLE 10: THIN FILMS IN LIFE SCIENCES, 2016
    • OTHERS
      • TABLE 11: THIN FILMS IN OTHER APPLICATIONS, 2016

CHAPTER 4 - TECHNOLOGIES AND MATERIALS FOR THIN AND ULTRATHIN FILMS

  • INTRODUCTION
  • THIN FILM FABRICATION
    • FIGURE 3: THIN FILM TYPES BASED ON FABRICATION PROCESS
  • COATINGS
    • TABLE 12: BASIC CONSTRUCTION STEPS OF A THIN FILM DEVICE, 2016
  • SUBSTRATE SELECTION
    • TABLE 13: TYPICAL SUBSTRATE MATERIALS FOR THIN AND ULTRATHIN FILMS, 2016
  • THIN FILM COATING AND PATTERNING
    • Patterned and Unpatterned Thin Films
  • CUTTING, FINISHING AND PACKAGING
  • THIN FILM COATING PROCESSES
    • SUBTRACTIVE METHODS
      • Coating Methods Used in Subtractive Processes
        • TABLE 14: THIN FILM COATING TECHNOLOGIES, 2016
        • Physical Processes
        • Chemical Processes
        • Hybrid Processes
      • Deposition Technologies for Ultrathin Films
        • TABLE 15: DEPOSITION TECHNOLOGIES FOR ULTRATHIN FILMS, 2016
        • TABLE 16: DEPOSITION TECHNOLOGIES FOR ULTRATHIN FILMS, 2016
      • Lithography
        • Optical Lithography
        • Immersion Lithography
        • Nanostencil Lithography
        • Deep Ultraviolet Light Lithography
        • X-Ray Lithography
        • Electron Beam Lithography
          • Reflective E-beam Lithography
        • Ion Beam Lithography
        • Scanning Probe Lithography
        • Dip-pen Nanolithography
        • Nanoimprint
          • Thermoplastic Nanoimprint Lithography
            • Photo Nanoimprint Lithography
            • Laser-assisted Direct Imprint
          • Self-Aligned Imprint Lithography
        • Extreme Ultraviolet Lithography
        • Directed Self Assembly
        • Nanomotor Lithography
          • TABLE 17: LITHOGRAPHIC METHODS, 2016 (NM)
        • Etching
    • ADDITIVE METHODS
      • TABLE 18: THIN FILM PRINTING TECHNOLOGIES, 2016
      • Production Process for Printed Thin Film Devices
        • TABLE 19: BASIC PRODUCTION PROCESS FOR PRINTED THIN FILM DEVICES
      • Screen Printing
        • TABLE 20: THIN FILMS RECENTLY MANUFACTURED BY SCREEN PRINTING, 2013-2016
      • Stencil Printing
        • TABLE 21: THIN FILMS RECENTLY MANUFACTURED BY STENCIL PRINTING, 2013-2016
      • Gravure
        • Direct Gravure
        • Reverse Gravure
        • Offset Gravure
        • Smooth Roll Gravure
        • Microgravure
          • TABLE 22: THIN FILMS RECENTLY MANUFACTURED BY GRAVURE, 2013-2016
      • Pad Printing
      • Flexography
        • TABLE 23: THIN FILMS RECENTLY MANUFACTURED BY FLEXOGRAPHY, 2013-2016
      • Transfer Printing
      • Offset Lithography
      • Inkjet Printing
        • Continuous Inkjet Printing
        • Drop-on-Demand Inkjet Printing
          • Thermal
          • Piezoelectric
          • Electrostatic
          • Acoustic
          • Phase-Change
            • TABLE 24: THIN FILMS RECENTLY MANUFACTURED BY INKJET PRINTING, 2013-2016
        • Organic Vapor Jet Printing
          • TABLE 25: THIN FILMS RECENTLY MANUFACTURED BY ORGANIC VAPOR JET PRINTING, 2013-2016
        • Laser Printing
          • TABLE 26: THIN FILMS RECENTLY MANUFACTURED BY LASER PRINTING, 2013-2016
        • Micro-Spray Printing
        • Aerosol Jet Printing
        • Electrophotography
        • Ionography
        • Magnetography
        • Nanography
        • Thermography
        • Most Common Printing Processes for Thin Films
          • TABLE 27: FILM OR FEATURE THICKNESS ACHIEVABLE BY DIFFERENT PRINTING METHODS, 2016 (NM)
  • FREE-STANDING THIN FILMS
    • THIN FILM DEPOSITION AND FILM RELEASE
      • Peeling
      • Lift-Off
      • Laser Lift-Off
      • Substrate Compression
      • Self-limiting Surface Modification
      • Chemical Dissolution
    • FILTRATION
    • FLOW COATING
    • FLOATING
      • TABLE 28: METHODS FOR FABRICATION OF FREE-STANDING THIN FILMS, 2016
      • TABLE 29: FREE-STANDING THIN FILMS: FILM COMPOSITION AND APPLICATIONS, 2016
  • THIN FILM MATERIALS
    • MATERIALS FOR THIN-FILM COATINGS BY PHYSICAL PROCESSES
      • TABLE 30: PHYSICAL PROCESSES: TYPICAL DEPOSITION MATERIALS FOR THIN FILMS, 2016
    • MATERIALS FOR THIN-FILM COATINGS BY CHEMICAL PROCESSES
      • Chemical Vapor Deposition
        • TABLE 31: MATERIALS FOR THIN FILMS USED IN CHEMICAL VAPOR DEPOSITION, 2016
        • Functional Group Sources
        • Metal Sources
          • Metal Hydrides and Halides
          • Metalorganic Precursors
            • TABLE 32: COMMON METALORGANIC PRECURSORS, 2016
      • Chemical Solution Deposition
        • Sol-gel Methods
        • Organic-Inorganic Hybrids
        • Metalorganic Deposition
          • TABLE 33: MATERIALS FOR THIN FILMS USED IN CHEMICAL SOLUTION DEPOSITION, 2016
      • Plating Type Methods
        • Electroplating
        • Electroless Plating
        • Electrophoretic Deposition
          • TABLE 34: MATERIALS FOR THIN FILMS USED IN PLATING TYPE METHODS, 2016
      • Other Chemical Processes
        • Liquid Phase Epitaxy
        • Liquid Phase Deposition
        • Interfacial Polymerization
        • Langmuir-Blodgett Deposition
        • Self-Assembled Monolayer Deposition
        • Layer-by-Layer Assembly
        • Flame Hydrolysis
        • Spray Pyrolysis
        • Laser Reactive Deposition
          • TABLE 35: MATERIALS FOR THIN FILMS USED IN OTHER CHEMICAL PROCESSES, 2016
    • MATERIALS FOR THIN FILM PRINTING
      • Nano Inks
        • TABLE 36: TYPES OF NANOMATERIALS, 2016
        • TABLE 37: NANOMATERIALS FOR THIN FILMS, 2016
      • Precursor Inks
      • Molecular Inks
  • LATEST TECHNOLOGICAL DEVELOPMENTS FROM 2014 TO 2016
    • NANOWIRE INK FOR TRANSPARENT CONDUCTIVE FILMS
    • LOW-TEMPERATURE COPPER NANO INK
    • INK FOR INKJET PRINTING OF OPTOELECTRONIC DEVICES
    • CONDUCTIVE NANO INK FOR FLEXIBLE TOUCH SENSORS
    • AMINO-SILYL AMINE COMPOUND FOR ATOMIC LAYER DEPOSITION
    • COLLOIDAL IRON PYRITE FOR THIN-FILM SOLAR CELLS
    • TRIPHENYLAMINE DERIVATIVE FOR ELECTROLUMINESCENT DEVICES
  • OTHER RELEVANT R&D ACTIVITIES
    • TABLE 38: OTHER RELEVANT R &D ACTIVITIES, 2016
  • TECHNOLOGICAL TRENDS FOR THIN FILM MATERIALS
    • FIGURE 4: TECHNOLOGICAL TRENDS IN THE THIN FILM INDUSTRY

CHAPTER 5 - GLOBAL MARKETS

  • ANALYSIS OUTLINE
  • GLOBAL MARKET SUMMARY
    • TABLE 39: GLOBAL MARKET FOR THIN FILM MATERIALS BY SEGMENT, THROUGH 2021 ($ MILLIONS)
    • FIGURE 5: GLOBAL MARKET FOR THIN FILM MATERIALS BY SEGMENT, 2014-2021 ($ MILLIONS)
  • CURRENT MARKET STATUS
    • CURRENT MARKET SUMMARY
      • TABLE 40: GLOBAL MARKET FOR THIN FILM MATERIALS, THROUGH 2016 ($ MILLIONS)
      • FIGURE 6: GLOBAL MARKET FOR THIN FILM MATERIALS, 2014-2016 ($ MILLIONS)
      • Revenues by Application
        • TABLE 41: GLOBAL MARKET FOR THIN FILM MATERIALS BY APPLICATION, THROUGH 2016 ($ MILLIONS)
        • FIGURE 7: GLOBAL THIN FILM MATERIALS MARKET SHARE BY APPLICATION, 2016 (%)
      • Revenues by Deposition Technology
        • TABLE 42: GLOBAL MARKET FOR THIN FILM MATERIALS BY DEPOSITION TECHNOLOGY, THROUGH 2016 ($ MILLIONS)
        • FIGURE 8: GLOBAL THIN FILM MATERIALS MARKET SHARE BY DEPOSITION TECHNOLOGY, 2016 (%)
      • Revenues by Film Thickness
        • TABLE 43: GLOBAL MARKET FOR THIN FILM MATERIALS BY FILM THICKNESS, THROUGH 2016 ($ MILLIONS)
        • FIGURE 9: GLOBAL THIN FILM MATERIALS MARKET SHARE BY FILM THICKNESS, 2016 (%)
      • Revenues by Region
        • TABLE 44: GLOBAL THIN FILM MATERIALS MARKET BY REGION, THROUGH 2016 ($ MILLIONS)
        • FIGURE 10: GLOBAL THIN FILM MATERIALS MARKET SHARE BY REGION, 2016 (%)
  • MARKET GROWTH TRENDS
    • ELECTRONICS
      • Semiconductor Devices
        • TABLE 45: GLOBAL SEMICONDUCTORS MARKET BY REGION, THROUGH 2021 ($ BILLIONS)
    • MEMS and NEMS
      • TABLE 46: GLOBAL MEMS AND NEMS MARKET BY TYPE, THROUGH 2021 ($ BILLIONS)
      • Printed Circuits
      • Data Storage Devices
        • Hard Disk Drives
          • TABLE 47: GLOBAL PRODUCTION OF HARD DISK DRIVES BY TYPE, THROUGH 2021 (MILLION UNITS)
      • Optical Storage Media
        • TABLE 48: GLOBAL PRODUCTION OF OPTICAL STORAGE MEDIA BY TYPE, THROUGH 2021 (MILLION UNITS)
    • OPTOELECTRONICS
      • Advanced Displays
        • TABLE 49: GLOBAL ADVANCED DISPLAYS MARKET BY TYPE, THROUGH 2021 ($ BILLIONS)
      • Solid-state Lighting
      • Lasers
      • Optical Waveguides
        • TABLE 50: GLOBAL MARKET FOR OPTICAL FIBERS, THROUGH 2021 ($ MILLIONS/MILLION KILOMETERS)
    • MECHANICAL/CHEMICAL
      • TABLE 51: GLOBAL AEROSPACE MARKET BY REGION, THROUGH 2021 ($ BILLIONS)
      • TABLE 52: GLOBAL MARKET FOR PROTECTIVE COATINGS BY APPLICATIONS TYPE, THROUGH 2021 ($ BILLIONS)
    • ENERGY
      • Photovoltaic Cells
        • TABLE 53: GLOBAL PRODUCTION OF PHOTOVOLTAIC MODULES BY TYPE, THROUGH 2021 (MW)
        • Flexible Solar Cells
      • Photothermal Devices
      • Batteries
      • Fuel Cells
        • TABLE 54: GLOBAL FUEL CELLS MARKET BY TYPE, THROUGH 2021 ($ MILLIONS)
      • Thermoelectric Devices
    • OPTICAL COATINGS
      • Flat Glass
        • TABLE 55: GLOBAL FLAT GLASS MARKET BY SECTOR, THROUGH 2021 ($ BILLIONS)
      • Eyewear
    • LIFE SCIENCES
      • Implantable Devices
        • TABLE 56: GLOBAL IMPLANTABLE DEVICES: MARKET BY REGION, THROUGH 2021 ($ BILLIONS)
      • Medical Instruments
      • Membranes
      • Advanced Drug Delivery Systems
      • Wearable Medical Devices
      • Wound Treatment
    • SENSORS AND OTHER APPLICATIONS
      • Sensors
        • TABLE 57: GLOBAL SENSORS MARKET BY TYPE, THROUGH 2021 ($ MILLIONS)
      • Biosensors
        • TABLE 58: GLOBAL BIOSENSORS AND OTHER COMMON SENSORS MARKET BY TYPE, THROUGH 2021 ($ BILLIONS)
      • Other Industry Segments
        • TABLE 59: GLOBAL OTHER INDUSTRY SECTORS MARKET BY TYPE, THROUGH 2021 ($ MILLIONS)
    • TECHNOLOGICAL TRENDS
      • On-going Miniaturization in the Semiconductor Industry
      • Increasing Demand for Flexible Devices
      • Fast Growing Market for Transparent Electronics
      • Nanotechnology
        • TABLE 60: THE NANOTECHNOLOGY INDUSTRY, 2016
        • TABLE 61: GLOBAL NANOTECHNOLOGY MARKET BY SEGMENT, THROUGH 2021 ($ BILLIONS)
        • FIGURE 11: GLOBAL NANOTECHNOLOGY MARKET SHARE BY SEGMENT, 2016 (%)
      • Manufacturing Efficiency, Product Mix and Environmental Factors
      • Others
    • REGIONAL TRENDS
  • MARKET FORECAST
    • REVENUES BY APPLICATION
      • TABLE 62: GLOBAL THIN FILM MATERIALS MARKET BY APPLICATION, THROUGH 2021 ($ MILLIONS)
      • FIGURE 12: GLOBALTHIN FILM MATERIALS MARKET SHARE BY APPLICATION, 2021 (%)
      • Revenues by Deposition Technology
        • TABLE 63: GLOBAL THIN FILM MATERIALS MARKET BY DEPOSITION TECHNOLOGY, THROUGH 2021 ($ MILLIONS)
        • FIGURE 13: GLOBAL THIN FILM MATERIALS MARKET SHARE BY DEPOSITION TECHNOLOGY, 2021 (%)
      • Revenues by Film Thickness
        • TABLE 64: GLOBAL THIN FILM MATERIALS MARKET BY FILM THICKNESS, THROUGH 2021 ($ MILLIONS)
        • FIGURE 14: GLOBAL THIN FILM MATERIALS MARKET SHARE BY FILM THICKNESS, 2021 (%)
      • Revenues by Region
        • TABLE 65: GLOBAL THIN FILM MATERIALS MARKET BY REGION, THROUGH 2021 ($ MILLIONS)
        • FIGURE 15: GLOBAL THIN FILM MATERIALS MARKET SHARE BY REGION, 2021 (%)

CHAPTER 6: - GLOBAL INDUSTRY STRUCTURE

  • LEADING SUPPLIERS OF THIN FILM MATERIALS
    • TABLE 66: GLOBAL LEADING SUPPLIERS OF THIN FILM MATERIALS, 2016
    • TABLE 67: GLOBAL LEADING SUPPLIERS OF THIN FILM MATERIALS BY PROCESS, 2016
    • TABLE 68: GLOBAL LEADING SUPPLIERS OF THIN FILM MATERIALS BY PROCESS AND REGION, 2016
  • OTHER PLAYERS IN THE THIN FILM INDUSTRY
    • TABLE 69: OTHER RELEVANT INDUSTRY PLAYERS, 2016
  • COMPANY PROFILES
    • AIR LIQUIDE
    • AIR PRODUCTS AND CHEMICALS
    • AKZONOBEL
    • ALFA AESAR
    • ATOTECH
    • BASF
    • CORNING PRECISION MATERIALS KOREA
    • DAIDO STEEL
    • DOW
    • HERAEUS
      • TABLE 70: HERAEUS STANDARD TARGET MATERIALS, 2016
    • JX NIPPON MINING & METALS
    • KOBE STEEL
    • LINDE
    • MACDERMID
    • MATERION
      • TABLE 71: MATERION TECHNOLOGIES
    • MITSUI KINZOKU
    • PRAXAIR
    • TOSOH
    • ULVAC
      • TABLE 72: ULVAC SPUTTERING TARGETS, 2016
    • UMICORE
      • TABLE 73: UMICORE SPUTTERING TARGETS, 2016

CHAPTER 7 - PATENT ANALYSIS

  • INTRODUCTION
    • SUMMARY OF RECENTLY AWARDED PATENTS
      • TABLE 74: THIN AND ULTRATHIN FILMS - RECENTLY AWARDED U.S. PATENTS
    • GENERAL TRENDS
      • TABLE 75: U.S. PATENT TRENDS FOR THIN AND ULTRATHIN FILMS, 2014-2016
      • FIGURE 16: U.S. PATENT TRENDS FOR THIN AND ULTRATHIN FILMS, 2014-2016 (NUMBER OF PATENTS)
    • TRENDS BY COUNTRY AND REGION
      • FIGURE 17 PATENT SHARE OF THIN AND ULTRATHIN FILMS BY REGION (%)
      • FIGURE 18: PATENT SHARE OF THIN AND ULTRATHIN FILMS BY COUNTRY (%)
    • TRENDS BY ASSIGNEE
      • TABLE 76: ASSIGNEES OF U.S. PATENTS RELATED TO THIN AND ULTRATHIN FILMS
    • TRENDS BY PATENT CATEGORY
      • FIGURE 19: SHARES OF THIN AND ULTRATHIN FILMS PATENTS IN U.S. BY CATEGORY (%)
    • TRENDS BY DEPOSITION METHOD
      • FIGURE 20: SHARES OF THIN AND ULTRATHIN FILMS PATENTS IN U.S. BY DEPOSITION METHOD (%)

LIST OF TABLES

  • SUMMARY TABLE: GLOBAL MARKET FOR THIN FILM MATERIALS BY SEGMENT, THROUGH 2021 ($ MILLIONS)
    • TABLE 1: THICK FILM TECHNOLOGIES, 2016
    • TABLE 2: THICK FILM, THIN FILM AND PRINTING PROCESSES: TECHNOLOGICAL MILESTONES
    • TABLE 3: APPLICATIONS FOR THIN FILMS , 2016
    • TABLE 4: THIN FILMS IN ELECTRONICS, 2016
    • TABLE 5: THIN FILMS IN OPTOELECTRONICS, 2016
    • TABLE 6: THIN FILMS IN THE MECHANICAL/CHEMICAL SECTOR, 2016
    • TABLE 7: THIN FILMS IN THE SENSORS AND INSTRUMENTATION SECTOR, 2016
    • TABLE 8: THIN FILMS IN THE ENERGY SECTOR, 2016
    • TABLE 9: THIN FILMS IN THE OPTICAL COATINGS SECTOR, 2016
    • TABLE 10: THIN FILMS IN LIFE SCIENCES, 2016
    • TABLE 11: THIN FILMS IN OTHER APPLICATIONS, 2016
    • TABLE 12: BASIC CONSTRUCTION STEPS OF A THIN FILM DEVICE, 2016
    • TABLE 13: TYPICAL SUBSTRATE MATERIALS FOR THIN AND ULTRATHIN FILMS, 2016
    • TABLE 14: THIN FILM COATING TECHNOLOGIES, 2016
    • TABLE 15: DEPOSITION TECHNOLOGIES FOR ULTRATHIN FILMS, 2016
    • TABLE 16: DEPOSITION TECHNOLOGIES FOR ULTRATHIN FILMS, 2016
    • TABLE 17: LITHOGRAPHIC METHODS, 2016 (NM)
    • TABLE 18: THIN FILM PRINTING TECHNOLOGIES, 2016
    • TABLE 19: BASIC PRODUCTION PROCESS FOR PRINTED THIN FILM DEVICES
    • TABLE 20: THIN FILMS RECENTLY MANUFACTURED BY SCREEN PRINTING, 2013-2016
    • TABLE 21: THIN FILMS RECENTLY MANUFACTURED BY STENCIL PRINTING, 2013-2016
    • TABLE 22: THIN FILMS RECENTLY MANUFACTURED BY GRAVURE, 2013-2016
    • TABLE 23: THIN FILMS RECENTLY MANUFACTURED BY FLEXOGRAPHY, 2013-2016
    • TABLE 24: THIN FILMS RECENTLY MANUFACTURED BY INKJET PRINTING, 2013-2016
    • TABLE 25: THIN FILMS RECENTLY MANUFACTURED BY ORGANIC VAPOR JET PRINTING, 2013-2016
    • TABLE 26: THIN FILMS RECENTLY MANUFACTURED BY LASER PRINTING, 2013-2016
    • TABLE 27: FILM OR FEATURE THICKNESS ACHIEVABLE BY DIFFERENT PRINTING METHODS, 2016 (NM)
    • TABLE 28: METHODS FOR FABRICATION OF FREE-STANDING THIN FILMS, 2016
    • TABLE 29: FREE-STANDING THIN FILMS: FILM COMPOSITION AND APPLICATIONS, 2016
    • TABLE 30: PHYSICAL PROCESSES: TYPICAL DEPOSITION MATERIALS FOR THIN FILMS, 2016
    • TABLE 31: MATERIALS FOR THIN FILMS USED IN CHEMICAL VAPOR DEPOSITION, 2016
    • TABLE 32: COMMON METALORGANIC PRECURSORS, 2016
    • TABLE 33: MATERIALS FOR THIN FILMS USED IN CHEMICAL SOLUTION DEPOSITION, 2016
    • TABLE 34: MATERIALS FOR THIN FILMS USED IN PLATING TYPE METHODS, 2016
    • TABLE 35: MATERIALS FOR THIN FILMS USED IN OTHER CHEMICAL PROCESSES, 2016
    • TABLE 36: TYPES OF NANOMATERIALS, 2016
    • TABLE 37: NANOMATERIALS FOR THIN FILMS, 2016
    • TABLE 38: OTHER RELEVANT R &D ACTIVITIES, 2016
    • TABLE 39: GLOBAL MARKET FOR THIN FILM MATERIALS BY SEGMENT, THROUGH 2021 ($ MILLIONS)
    • TABLE 40: GLOBAL MARKET FOR THIN FILM MATERIALS, THROUGH 2016 ($ MILLIONS)
    • TABLE 41: GLOBAL MARKET FOR THIN FILM MATERIALS BY APPLICATION, THROUGH 2016 ($ MILLIONS)
    • TABLE 42: GLOBAL MARKET FOR THIN FILM MATERIALS BY DEPOSITION TECHNOLOGY, THROUGH 2016 ($ MILLIONS)
    • TABLE 43: GLOBAL MARKET FOR THIN FILM MATERIALS BY FILM THICKNESS, THROUGH 2016 ($ MILLIONS)
    • TABLE 44: GLOBAL THIN FILM MATERIALS MARKET BY REGION, THROUGH 2016 ($ MILLIONS)
    • TABLE 45: GLOBAL SEMICONDUCTORS MARKET BY REGION, THROUGH 2021 ($ BILLIONS)
    • TABLE 46: GLOBAL MEMS AND NEMS MARKET BY TYPE, THROUGH 2021 ($ BILLIONS)
    • TABLE 47: GLOBAL PRODUCTION OF HARD DISK DRIVES BY TYPE, THROUGH 2021 (MILLION UNITS)
    • TABLE 48: GLOBAL PRODUCTION OF OPTICAL STORAGE MEDIA BY TYPE, THROUGH 2021 (MILLION UNITS)
    • TABLE 49: GLOBAL ADVANCED DISPLAYS MARKET BY TYPE, THROUGH 2021 ($ BILLIONS)
    • TABLE 50: GLOBAL MARKET FOR OPTICAL FIBERS, THROUGH 2021 ($ MILLIONS/MILLION KILOMETERS)
    • TABLE 51: GLOBAL AEROSPACE MARKET BY REGION, THROUGH 2021 ($ BILLIONS)
    • TABLE 52: GLOBAL MARKET FOR PROTECTIVE COATINGS BY APPLICATIONS TYPE, THROUGH 2021 ($ BILLIONS)
    • TABLE 53: GLOBAL PRODUCTION OF PHOTOVOLTAIC MODULES BY TYPE, THROUGH 2021 (MW)
    • TABLE 54: GLOBAL FUEL CELLS MARKET BY TYPE, THROUGH 2021 ($ MILLIONS)
    • TABLE 55: GLOBAL FLAT GLASS MARKET BY SECTOR, THROUGH 2021 ($ BILLIONS)
    • TABLE 56: GLOBAL IMPLANTABLE DEVICES: MARKET BY REGION, THROUGH 2021 ($ BILLIONS)
    • TABLE 57: GLOBAL SENSORS MARKET BY TYPE, THROUGH 2021 ($ MILLIONS)
    • TABLE 58: GLOBAL BIOSENSORS AND OTHER COMMON SENSORS MARKET BY TYPE, THROUGH 2021 ($ BILLIONS)
    • TABLE 59: GLOBAL OTHER INDUSTRY SECTORS MARKET BY TYPE, THROUGH 2021 ($ MILLIONS)
    • TABLE 60: THE NANOTECHNOLOGY INDUSTRY, 2016
    • TABLE 61: GLOBAL NANOTECHNOLOGY MARKET BY SEGMENT, THROUGH 2021 ($ BILLIONS)
    • TABLE 62: GLOBAL THIN FILM MATERIALS MARKET BY APPLICATION, THROUGH 2021 ($ MILLIONS)
    • TABLE 63: GLOBAL THIN FILM MATERIALS MARKET BY DEPOSITION TECHNOLOGY, THROUGH 2021 ($ MILLIONS)
    • TABLE 64: GLOBAL THIN FILM MATERIALS MARKET BY FILM THICKNESS, THROUGH 2021 ($ MILLIONS)
    • TABLE 65: GLOBAL THIN FILM MATERIALS MARKET BY REGION, THROUGH 2021 ($ MILLIONS)
    • TABLE 66: GLOBAL LEADING SUPPLIERS OF THIN FILM MATERIALS, 2016
    • TABLE 67: GLOBAL LEADING SUPPLIERS OF THIN FILM MATERIALS BY PROCESS, 2016
    • TABLE 68: GLOBAL LEADING SUPPLIERS OF THIN FILM MATERIALS BY PROCESS AND REGION, 2016
    • TABLE 69: OTHER RELEVANT INDUSTRY PLAYERS, 2016
    • TABLE 70: HERAEUS STANDARD TARGET MATERIALS, 2016
    • TABLE 71: MATERION TECHNOLOGIES
    • TABLE 72: ULVAC SPUTTERING TARGETS, 2016
    • TABLE 73: UMICORE SPUTTERING TARGETS, 2016
    • TABLE 74: THIN AND ULTRATHIN FILMS - RECENTLY AWARDED U.S. PATENTS
    • TABLE 75: U.S. PATENT TRENDS FOR THIN AND ULTRATHIN FILMS, 2014-2016
    • TABLE 76: ASSIGNEES OF U.S. PATENTS RELATED TO THIN AND ULTRATHIN FILMS

LIST OF FIGURES

  • SUMMARY FIGURE: GLOBAL MARKET FOR THIN FILM MATERIALS BY SEGMENT, 2014-2021 ($ MILLIONS)
    • FIGURE 1: GLOBAL THIN FILM METHODS (EQUIPMENT, MATERIALS, SERVICES) MARKET SHARE BY GROUP OF TECHNOLOGIES, 2016 (%)
    • FIGURE 2: GLOBAL THIN FILMS PATENT APPLICATIONS AND PATENTS, 1971-2015 (NO. OF PATENTS)
    • FIGURE 3: THIN FILM TYPES BASED ON FABRICATION PROCESS
    • FIGURE 4: TECHNOLOGICAL TRENDS IN THE THIN FILM INDUSTRY
    • FIGURE 5: GLOBAL MARKET FOR THIN FILM MATERIALS BY SEGMENT, 2014-2021 ($ MILLIONS)
    • FIGURE 6: GLOBAL MARKET FOR THIN FILM MATERIALS, 2014-2016 ($ MILLIONS)
    • FIGURE 7: GLOBAL THIN FILM MATERIALS MARKET SHARE BY APPLICATION, 2016 (%)
    • FIGURE 8: GLOBAL THIN FILM MATERIALS MARKET SHARE BY DEPOSITION TECHNOLOGY, 2016 (%)
    • FIGURE 9: GLOBAL THIN FILM MATERIALS MARKET SHARE BY FILM THICKNESS, 2016 (%)
    • FIGURE 10: GLOBAL THIN FILM MATERIALS MARKET SHARE BY REGION, 2016 (%)
    • FIGURE 11: GLOBAL NANOTECHNOLOGY MARKET SHARE BY SEGMENT, 2016 (%)
    • FIGURE 12: GLOBALTHIN FILM MATERIALS MARKET SHARE BY APPLICATION, 2021 (%)
    • FIGURE 13: GLOBAL THIN FILM MATERIALS MARKET SHARE BY DEPOSITION TECHNOLOGY, 2021 (%)
    • FIGURE 14: GLOBAL THIN FILM MATERIALS MARKET SHARE BY FILM THICKNESS, 2021 (%)
    • FIGURE 15: GLOBAL THIN FILM MATERIALS MARKET SHARE BY REGION, 2021 (%)
    • FIGURE 16: U.S. PATENT TRENDS FOR THIN AND ULTRATHIN FILMS, 2014-2016 (NUMBER OF PATENTS)
    • FIGURE 17: PATENT SHARE OF THIN AND ULTRATHIN FILMS BY REGION (%)
    • FIGURE 18: PATENT SHARE OF THIN AND ULTRATHIN FILMS BY COUNTRY (%)
    • FIGURE 19: SHARES OF THIN AND ULTRATHIN FILMS PATENTS IN U.S. BY CATEGORY (%)
    • FIGURE 20: SHARES OF THIN AND ULTRATHIN FILMS PATENTS IN U.S. BY DEPOSITION METHOD (%)
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