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市場調査レポート

世界の薄膜および超薄膜の技術・材料・市場

Global Markets, Technologies and Materials for Thin and Ultrathin Films

発行 BCC Research 商品コード 231923
出版日 ページ情報 英文 294 Pages
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世界の薄膜および超薄膜の技術・材料・市場 Global Markets, Technologies and Materials for Thin and Ultrathin Films
出版日: 2012年02月21日 ページ情報: 英文 294 Pages
概要

世界の薄膜材料市場は2009年の69億ドルから2010年には約84億ドルへの成長を遂げ、2011年には約93億ドルの規模に達すると推計されています。その後は10%の年平均成長率で成長し、2016年には約149億ドルの市場規模に達すると予測されています。

当レポートでは、薄膜および超薄膜の各種技術、材料の市場について調査分析し、技術・材料の種類と概要、薄膜材料の用途/エンドユーズ部門・地域・堆積技術・膜厚別の収益実績・予測(〜2016年)、地域別の薄膜材料の製造・消費予測(〜2016年)、エンドユーズ部門別の主要動向、主要企業のプロファイルなどをまとめ、概略以下の構成でお届けいたします。

第1章 イントロダクション

第2章 エグゼクティブサマリー

第3章 概要

  • 被覆剤と被膜
  • 厚膜・薄膜・超薄膜
  • 薄膜技術の発展の経緯と近年の動向
  • 薄膜・超薄膜の用途

第4章 薄膜・超薄膜の技術と材料

  • イントロダクション
  • 薄膜被覆
  • 薄膜堆積プロセス
  • 自立薄膜
  • 薄膜材料

第5章 世界市場

  • 分析概要
  • 世界市場のサマリー
  • 現在の市場状況
  • 市場成長動向
  • 市場予測

第6章 エレクトロニクス

  • 目的
  • エレクトロニクス用薄膜
  • 現在の市場:用途別
  • 産業の成長に関する追加情報
  • 最近の産業における出来事・動向
  • 市場のサマリー・予測

第7章 オプトエレクトロニクス

  • 目的
  • オプトエレクトロニクス用薄膜
  • 現在の市場:用途別
  • 産業の成長に関する追加情報
  • 最近の産業における出来事・動向
  • 市場のサマリー・予測

第8章 機械/化学

  • 目的
  • 現在の市場:用途別
  • 産業の成長に関する追加情報
  • 最近の産業における出来事・動向
  • 市場のサマリー・予測

第9章 エネルギー

  • 目的
  • エネルギー部門向け薄膜
  • 現在の市場:用途別
  • 産業の成長に関する追加情報
  • 最近の産業における出来事・動向
  • 市場のサマリー・予測

第10章 光学薄膜

  • 目的
  • 光学薄膜用薄膜
  • 現在の市場:用途別
  • 産業の成長に関する追加情報
  • 最近の産業における出来事・動向
  • 市場のサマリー・予測

第11章

  • 目的
  • ライフサイエンス・その他の市場区分向け薄膜
  • 現在の市場:用途別
  • 産業の成長に関する追加情報
  • 最近の産業における出来事・動向
  • 市場のサマリー・予測

第12章 世界の産業構造

  • 薄膜材料の主要製造業者
  • 最近の業界における目だった変化
  • 薄膜材料の製造:地域別
  • 薄膜材料の消費:地域別
  • 企業プロファイル

第13章 米国特許分析

図表

目次
Product Code: SMC057B

The global market for thin film materials increased from $6.9 billion in 2009 to nearly $8.4 billion in 2010 and it is estimated to be valued at nearly $9.3 billion in 2011. BCC projects this market to reach nearly $14.9 billion by 2016 at a compound annual growth rate (CAGR) of 10%.

Chemical processes (including chemical vapor deposition, liquid-phase deposition and plating-type deposition methods) accounted for 54.8% of all revenues in 2011 and was around $5.1 billion. This market is further expected to grow to $7.4 billion by 2016, a CAGR of 7.8%.

Physical processes (including evaporation, sputtering and ionic deposition) accounted for the remaining 45.2%, corresponding to total revenues of nearly $4.2 billion in 2011. This particular market is expected to grow at a CAGR of 12.3% to reach $7.5 billion by 2016.

SUMMARY FIGURE
GLOBAL MARKET FOR THIN FILM MATERIALS, 2009 - 2016
($ MILLIONS)

Source: BCC Research

STUDY GOALS AND OBJECTIVES

BCC Research has followed the thick and thin film markets for more than 10 years, publishing various reports on materials, devices and technologies used to deposit these types of films. During this period, the market has expanded steadily and new opportunities have developed for these films.

With this study, BCC Research continues its commitment to monitoring the thin film market by providing an updated review of the most important advances in thin film technology. In addition, BCC provides a detailed overview of the current market and an impartial analysis of prospects for future growth, with a focus on the raw materials used to produce thin films and nanofilms.

Specifically, the major objectives of this study are:

  • Provide an update on the most advanced processes employed for the fabrication of thin and ultrathin films.
  • Provide an overview of the most common materials used for each thin film deposition process and identify new materials.
  • Highlight new technological developments in the fabrication of thin films, while outlining technical issues.
  • Review the several fields of application for thin film technologies and investigate emerging applications.
  • Estimate current worldwide markets for thin film materials, and forecast the growth for each market segment through 2016.
  • Identify important technology and market trends within each market segment.
  • Supply an updated review of current producers of thin film materials.
  • Determine trends in U.S. patents and worldwide patents issued during the most recent years.

REASONS FOR DOING THIS STUDY

The global market for thin film technologies (including equipment, materials and services) is currently valued at more than $50 billion and continues to grow. On-going miniaturization in the semiconductor industry also impacts other sectors. As a result, there is a continuous effort to create components and products that are smaller, thinner, lighter and also, for certain applications, flexible. In addition, new developments in nanotechnology are also contributing to advances in materials and fabrication methods for producing very thin films, that is, those films below 30 nanometers or those with a thickness measured in atoms.

There are various types of thin film materials (e.g., metals, alloys, oxides, non-oxides, metalorganics and metal salts). These materials can be deposited by a variety of physical or chemical methods, and they find application in the fabrication process of numerous devices within several industrial sectors (including electronics, optoelectronics, mechanical/chemical, energy, optical coatings, life science and decorative coatings).

At the time of BCC's last report (2004), the global market for thin film materials was valued at $7.1 billion and growing at a fairly rapid pace. Since then, the industry has continued to evolve in important ways. In addition, at the end of 2007, growth in the global economy began to slow dramatically along with many sectors in which these materials are used, leading to a steep drop in sales during the ensuing two years.

The principal reason for doing this study is to present a current assessment of the thin film material industry from both technological and market viewpoints and to outline future trends and key developments.

There is also a need to evaluate the current status and future trends of the thin film material industry from a global standpoint. As use of these materials expands and new fields of application emerge, information on regional production, sales and type of suppliers becomes more valuable.

An equally important reason for undertaking this study is to provide technical insights into thin film manufacturing by:

Offering a review of material types, their applications and deposition methods. Providing an overview of the main global R&D activities, resulting in the issuance of patents, and related to thin film technology. Illustrating the latest technological developments.

This information can assist companies in identifying opportunities for process and productivity improvements, resulting in a positive impact on future market growth.

SCOPE OF REPORT

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

BCC Research determines the current market status for thin film materials, defines trends and presents forecasts of growth over the next five years. The thin film material industry is also analyzed on a worldwide basis from the standpoint of both manufacturing and consumption. In addition, technological issues, including the latest process developments and events, are discussed.

More specifically, BCC's market analysis is divided into six main parts. In the first part, a historical review of thin film technology is provided, including an outline of recent events. The report also supplies a description of current and emerging applications for thin and ultrathin films.

The second part of the study provides a technological review of thin film deposition processes, free-standing thin films and materials used to manufacture thin and ultrathin films. Each of the three sections concludes with an analysis of the most important technological developments and improvements since 2009, including examples of significant patents recently issued or applied for. 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 part of the report entails a global market analysis of materials for thin and ultrathin films. Global revenues (sales data in millions of dollars) are presented by application, deposition technology, film thickness and region, with actual data referring to the years 2009 and 2010, and estimates for 2011.

This section concludes with a presentation of market growth trends, based on industry growth, technological trends and regional trends. Projected revenues are reported, with forecast compound annual growth rates (CAGR) for the period 2011 through 2016.

Next, six optional sections are offered. These sections provide a more focused discussion of the thin film materials market for the six main sectors in which thin films are typically applied (specifically: electronics, optoelectronics, mechanical/chemical, energy, optical coatings and life sciences and others). In these optional sections, additional details by sector on current market conditions and key trends and developments are provided, in addition to market growth projections for each sector.

In the next part of the study that 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 suppliers and an evaluation of thin film material production versus consumption, always from a geographical standpoint. Detailed company profiles of the top industry players are also provided.

The final part of the report includes an extensive U.S. patent analysis, with a summary of patents related to thin film materials, deposition methods and applications issued in 2011. Patent analysis is performed by region, country, assignee, patent category and deposition process.

ANALYST CREDENTIALS

Margareth Gagliardi, BCC's chief research analyst in advanced materials, has more than 25 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.

Table of Contents

Global Markets, Technologies and Materials for Thin and Ultrathin Films

Chapter - 1: INTRODUCTION - Complimentary

  • STUDY GOALS AND OBJECTIVES
  • REASONS FOR DOING THIS STUDY
  • INTENDED AUDIENCE
  • SCOPE OF REPORT
  • METHODOLOGY AND INFORMATION SOURCES
  • RELATED BCC RESEARCH STUDIES
  • ANALYST CREDENTIALS
  • BCC ONLINE SERVICES
  • DISCLAIMER

Chapter - 2: EXECUTIVE SUMMARY

  • Summary Table: GLOBAL MARKET FOR THIN FILM MATERIALS, THROUGH 2016
  • Summary Figure: GLOBAL MARKET FOR THIN FILM MATERIALS, 2009 - 2016

Chapter - 3: OVERVIEW

  • COATINGS AND FILMS
  • THICK, THIN AND ULTRATHIN FILMS
  • MILESTONES IN THE HISTORY OF THIN FILM TECHNOLOGY AND RECENT EVENTS
  • APPLICATIONS FOR THIN AND ULTRATHIN FILMS

Chapter - 4: TECHNOLOGIES AND MATERIALS FOR THIN AND ULTRATHIN FILMS

  • INTRODUCTION
  • THIN FILM COATINGS
  • THIN FILM DEPOSITION PROCESSES
  • FREE-STANDING THIN FILMS
  • THIN FILM MATERIALS

Chapter - 5: GLOBAL MARKETS

  • ANALYSIS OUTLINE
  • GLOBAL MARKET SUMMARY
  • CURRENT MARKET STATUS
  • MARKET GROWTH TRENDS
  • MARKET FORECAST

Chapter - 6: ELECTRONICS

  • OBJECTIVE
  • THIN FILMS FOR ELECTRONICS
  • CURRENT MARKET BY APPLICATION
  • ADDITIONAL INFORMATION ON INDUSTRY GROWTH
  • RECENT INDUSTRY EVENTS AND DEVELOPMENTS
  • MARKET SUMMARY AND FORECAST

Chapter - 7: OPTOELECTRONICS

  • OBJECTIVE
  • THIN FILMS FOR OPTOELECTRONICS
  • CURRENT MARKET BY APPLICATION
  • ADDITIONAL INFORMATION ON INDUSTRY GROWTH
  • RECENT INDUSTRY EVENTS AND DEVELOPMENTS
  • MARKET SUMMARY AND FORECAST

Chapter - 8: MECHANICAL/CHEMICAL

  • OBJECTIVE
  • CURRENT MARKET BY APPLICATION
  • ADDITIONAL INFORMATION ON INDUSTRY GROWTH
  • RECENT INDUSTRY EVENTS AND DEVELOPMENTS
  • MARKET SUMMARY AND FORECAST

Chapter - 9: ENERGY

  • OBJECTIVE
  • THIN FILMS FOR THE ENERGY SECTOR
  • CURRENT MARKET BY APPLICATION
  • ADDITIONAL INFORMATION ON INDUSTRY GROWTH
  • RECENT INDUSTRY EVENTS AND DEVELOPMENTS
  • MARKET SUMMARY AND FORECAST

Chapter - 10: OPTICAL COATINGS

  • OBJECTIVE
  • THIN FILMS FOR OPTICAL COATINGS
  • CURRENT MARKET BY APPLICATION
  • ADDITIONAL INFORMATION ON INDUSTRY GROWTH
  • RECENT INDUSTRY EVENTS AND DEVELOPMENTS
  • MARKET SUMMARY AND FORECAST

Chapter - 11: LIFE SCIENCES AND OTHER MARKET SECTORS

  • OBJECTIVE
  • THIN FILMS FOR LIFE SCIENCES AND OTHER FIELDS
  • CURRENT MARKET BY APPLICATION
  • ADDITIONAL INFORMATION ON INDUSTRY GROWTH
  • RECENT INDUSTRY EVENTS AND DEVELOPMENTS
  • MARKET SUMMARY AND FORECAST

Chapter - 12: GLOBAL INDUSTRY STRUCTURE

  • LEADING MANUFACTURERS OF THIN FILM MATERIALS
  • NOTABLE RECENT INDUSTRY CHANGES
  • THIN FILM MATERIALS PRODUCTION BY REGION
  • THIN FILM MATERIALS CONSUMPTION BY REGION
  • COMPANY PROFILES

Chapter - 13: U.S. PATENT ANALYSIS

  • INTRODUCTION
  • SUMMARY OF PATENTS AWARDED IN 2011
  • GENERAL TRENDS
  • TRENDS BY COUNTRY AND REGION
  • TRENDS BY ASSIGNEE
  • TRENDS BY PATENT CATEGORY
  • TRENDS BY DEPOSITION METHOD
    • Figure 18: THIN AND ULTRATHIN FILMS: SHARES OF U.S. PATENTS BY DEPOSITION METHOD, 2011

List of Tables

  • Summary Table: GLOBAL MARKET FOR THIN FILM MATERIALS, THROUGH 2016
  • Table 1: THIN FILM DEPOSITION TECHNOLOGICAL MILESTONES
  • Table 2: APPLICATIONS OF THIN AND ULTRATHIN FILMS, 2011
  • Table 3: BASIC CONSTRUCTION STEPS OF A THIN FILM DEVICE
  • Table 4: SUBSTRATE MATERIALS FOR THIN AND ULTRATHIN FILMS, 2011
  • Table 5: THIN FILM TECHNOLOGIES, 2011
  • Table 6: DEPOSITION TECHNOLOGIES FOR ULTRATHIN FILMS, 2011
  • Table 7: METHODS FOR FABRICATION OF FREE-STANDING THIN FILMS
  • Table 8: FREE-STANDING THIN FILMS: FILM COMPOSITION AND APPLICATIONS
  • Table 9: PHYSICAL PROCESSES: TYPICAL DEPOSITION MATERIALS FOR THIN FILMS, 2011
  • Table 10: CHEMICAL VAPOR DEPOSITION: MATERIALS FOR THIN FILMS, 2011
  • Table 11: COMMON METALORGANIC PRECURSORS, 2011
  • Table 12: CHEMICAL SOLUTION DEPOSITION: MATERIALS FOR THIN FILMS, 2011
  • Table 13: PLATING TYPE METHODS: MATERIALS FOR THIN FILMS, 2011
  • Table 14: OTHER CHEMICAL PROCESSES: MATERIALS FOR THIN FILMS, 2011
  • Table 15: GLOBAL MARKET FOR THIN FILM MATERIALS, THROUGH 2016
  • Table 16: GLOBAL MARKET FOR THIN FILM MATERIALS, THROUGH 2011
  • Table 17: THIN FILM MATERIALS: GLOBAL REVENUES BY DEPOSITION TECHNOLOGY, THROUGH 2011
  • Table 18: THIN FILM MATERIALS: GLOBAL REVENUES BY APPLICATION, THROUGH 2011
  • Table 19: THIN FILM MATERIALS: GLOBAL REVENUES BY FILM THICKNESS, 2009 THROUGH 2011
  • Table 20: THIN FILM MATERIALS: REVENUES BY REGION, THROUGH 2011
  • Table 21: FORECAST - SEMICONDUCTORS: REVENUES BY REGION, THROUGH 2016
  • Table 22: FORECAST - PRINTED CIRCUITS AND OTHER INTERCONNECTING COMPONENTS: REVENUES BY REGION, THROUGH 2016
  • Table 23: FORECAST - HARD DISK DRIVES: GLOBAL PRODUCTION BY TYPE, THROUGH 2016
  • Table 24: FORECAST - OPTICAL STORAGE MEDIA: GLOBAL PRODUCTION BY TYPE, THROUGH 2016
  • Table 25: FORECAST - ADVANCED DISPLAYS: GLOBAL REVENUES BY TYPE, THROUGH 2016
  • Table 26: FORECAST - ADVANCED DISPLAYS: COATED AREA BY TYPE, THROUGH 2016
  • Table 27: FORECAST - APPLICATIONS FOR PROTECTIVE COATINGS: GLOBAL REVENUES, THROUGH 2016
  • Table 28: FORECAST - PHOTOVOLTAIC MODULES: GLOBAL PRODUCTION BY TYPE, THROUGH 2016
  • Table 29: IC CONFIGURATIONS, 2009-2016
  • Table 30: THE NANOTECHNOLOGY INDUSTRY
  • Table 31: NANOTECHNOLOGY: GLOBAL REVENUES BY SEGMENT, THROUGH 2016
  • Table 32: FORECAST - THIN FILM MATERIALS: GLOBAL REVENUES BY APPLICATION, THROUGH 2016
  • Table 33: FORECAST - THIN FILM MATERIALS: GLOBAL REVENUES BY DEPOSITION TECHNOLOGY, THROUGH 2016
  • Table 34: FORECAST - THIN FILM MATERIALS: GLOBAL REVENUES BY FILM THICKNESS, THROUGH 2016
  • Table 35: FORECAST - THIN FILM MATERIALS: REVENUES BY REGION, THROUGH 2016
  • Table 36: THIN FILMS IN ELECTRONICS, 2011
  • Table 37: THIN FILM MATERIALS FOR ELECTRONICS: GLOBAL REVENUES BY APPLICATION, 2011
  • Table 38: FORECAST - PASSIVE COMPONENTS: GLOBAL REVENUES BY TYPE, THROUGH 2016
  • Table 39: FORECAST - MEMS AND NEMS: GLOBAL REVENUES BY TYPE, THROUGH 2016
  • Table 40: FORECAST - OTHER APPLICATIONS IN ELECTRONICS: GLOBAL REVENUES BY TYPE, THROUGH 2016
  • Table 41: FORECAST - THIN FILM MATERIALS FOR ELECTRONICS: GLOBAL REVENUES BY APPLICATION, THROUGH 2016
  • Table 42: FORECAST - THIN FILM MATERIALS FOR ELECTRONICS: GLOBAL REVENUES BY DEPOSITION TECHNOLOGY, THROUGH 2016
  • Table 43: FORECAST - THIN FILM MATERIALS FOR ELECTRONICS: GLOBAL REVENUES BY FILM THICKNESS, THROUGH 2016
  • Table 44: THIN FILMS IN OPTOELECTRONICS, 2011
  • Table 45: THIN FILM MATERIALS FOR OPTOELECTRONICS: GLOBAL REVENUES BY APPLICATION, 2011
  • Table 46: FORECAST - OPTICAL FIBERS: GLOBAL MARKET, THROUGH 2016
  • Table 47: FORECAST - THIN FILM MATERIALS FOR OPTOELECTRONICS: GLOBAL REVENUES BY APPLICATION, THROUGH 2016
  • Table 48: FORECAST - THIN FILM MATERIALS FOR OPTOELECTRONICS: GLOBAL REVENUES BY DEPOSITION TECHNOLOGY, THROUGH 2016
  • Table 49: FORECAST - THIN FILM MATERIALS FOR OPTOELECTRONICS: GLOBAL REVENUES BY FILM THICKNESS, THROUGH 2016
  • Table 50: THIN FILMS IN THE MECHANICAL/CHEMICAL SECTOR, 2011
  • Table 51: THIN FILM MATERIALS FOR THE MECHANICAL/CHEMICAL SECTOR: GLOBAL REVENUES BY APPLICATION, 2011
  • Table 52: FORECAST - CATALYSTS AND PHOTOCATALYSTS: GLOBAL REVENUES, THROUGH 2016
  • Table 53: AUTOMOTIVE AND INDUSTRIAL LUBRICANTS: CONSUMPTION BY TYPE, WORLDWIDE, THROUGH 2016
  • Table 54: SENSORS: REVENUES BY TYPE, WORLDWIDE, THROUGH 2016
  • Table 55: FORECAST - FILTRATION: GLOBAL REVENUES, THROUGH 2016
  • Table 56: FORECAST - THIN FILM MATERIALS FOR THE MECHANICAL/CHEMICAL SECTOR: GLOBAL REVENUES BY APPLICATION, THROUGH 2016
  • Table 57: FORECAST - THIN FILM MATERIALS FOR THE MECHANICAL/CHEMICAL SECTOR: GLOBAL REVENUES BY DEPOSITION TECHNOLOGY, THROUGH 2016
  • Table 58: FORECAST - THIN FILM MATERIALS FOR THE MECHANICAL/CHEMICAL SECTOR: GLOBAL REVENUES BY FILM THICKNESS, THROUGH 2016
  • Table 59: THIN FILMS IN THE ENERGY SECTOR, 2011
  • Table 60: THIN FILM MATERIALS FOR THE ENERGY SECTOR: GLOBAL REVENUES BY APPLICATION, 2011
  • Table 61: FORECAST - SUPERCONDUCTORS: GLOBAL REVENUES BY TYPE, THROUGH 2016
  • Table 62: FORECAST - FUEL CELLS: GLOBAL REVENUES BY TYPE, THROUGH 2016
  • Table 63: FORECAST - PHOTOTHERMAL DEVICES AND THIN FILM HEATERS: GLOBAL REVENUES BY TYPE, THROUGH 2016
  • Table 64: FORECAST - THIN FILM MATERIALS FOR THE ENERGY SECTOR: GLOBAL REVENUES BY APPLICATION, THROUGH 2016
  • Table 65: FORECAST - THIN FILM MATERIALS FOR THE ENERGY SECTOR: GLOBAL REVENUES BY DEPOSITION TECHNOLOGY, THROUGH 2016
  • Table 66: FORECAST - THIN FILM MATERIALS FOR THE ENERGY SECTOR: GLOBAL REVENUES BY FILM THICKNESS, THROUGH 2016
  • Table 67: THIN FILMS IN THE OPTICAL COATINGS SECTOR, 2011
  • Table 68: THIN FILM MATERIALS FOR OPTICAL COATINGS: GLOBAL REVENUES BY APPLICATION, 2011
  • Table 69: FORECAST - APPLICATIONS OF OPTICAL COATINGS: GLOBAL REVENUES BY APPLICATION, THROUGH 2016
  • Table 70: FORECAST - THIN FILM MATERIALS FOR OPTICAL COATINGS: GLOBAL REVENUES BY APPLICATION, THROUGH 2016
  • Table 71: FORECAST - THIN FILM MATERIALS FOR OPTICAL COATINGS: GLOBAL REVENUES BY DEPOSITION TECHNOLOGY, THROUGH 2016
  • Table 72: FORECAST - THIN FILM MATERIALS FOR OPTICAL COATINGS: GLOBAL REVENUES BY FILM THICKNESS, THROUGH 2016
  • Table 73: THIN FILMS IN LIFE SCIENCES AND OTHER FIELDS, 2011
  • Table 74: THIN FILM MATERIALS FOR LIFE SCIENCES AND OTHER FIELDS: GLOBAL REVENUES BY APPLICATION, 2011
  • Table 75: FORECAST - APPLICATIONS OF OTHER COATINGS: GLOBAL REVENUES BY TYPE, THROUGH 2016
  • Table 76: FORECAST - THIN FILM MATERIALS FOR LIFE SCIENCES AND OTHER FIELDS: GLOBAL REVENUES BY APPLICATION, THROUGH 2016
  • Table 77: FORECAST - THIN FILM MATERIALS FOR LIFE SCIENCES AND OTHER FIELDS: GLOBAL REVENUES BY DEPOSITION TECHNOLOGY, THROUGH 2016
  • Table 78: FORECAST - THIN FILM MATERIALS FOR LIFE SCIENCES AND OTHER FIELDS: GLOBAL REVENUES BY FILM THICKNESS, THROUGH 2016
  • Table 79: LEADING MANUFACTURERS OF THIN FILM MATERIALS, 2011
  • Table 80: NOTABLE RECENT INDUSTRY CHANGES
  • Table 81: THIN FILM MATERIALS: MANUFACTURING BY REGION, 2009-2016
  • Table 82: THIN FILM MATERIALS: CONSUMPTION BY REGION, 2009-2016
  • Table 83: HERAEUS TARGETS, 2011
  • Table 84: MATERION TECHNOLOGIES, 2011
  • Table 85: ULVAC SPUTTERING TARGETS, 2011
  • Table 86: UMICORE SPUTTERING TARGETS, 2011
  • Table 87: THIN AND ULTRATHIN FILMS, U.S. PATENTS, 2011
  • Table 88: THIN AND ULTRATHIN FILMS: U.S. PATENT TRENDS, THROUGH 2011
  • Table 89: ASSIGNEES OF U.S. PATENTS RELATED TO THIN AND ULTRATHIN FILMS, 2011

List of Figures

  • Summary Figure: GLOBAL MARKET FOR THIN FILM MATERIALS, 2009 - 2016
  • Figure 1: THIN FILMS: WORLDWIDE PATENT APPLICATIONS AND PATENTS, 1971-2010
  • Figure 2: GLOBAL MARKET FOR THIN FILM MATERIALS, 2011 - 2016
  • Figure 3: GLOBAL MARKET FOR THIN FILM MATERIALS, 2009 - 2011
  • Figure 4: THIN FILM MATERIALS: MARKET SHARE BY DEPOSITION TECHNOLOGY, 2011
  • Figure 5: THIN FILM MATERIALS: MARKET SHARE BY APPLICATION, 2011
  • Figure 6: THIN FILM MATERIALS: MARKET SHARE BY REGION, 2011
  • Figure 7: FORECAST - HARD DISK DRIVES: PRODUCTION SHARE BY TYPE, 2016
  • Figure 8: FORECAST - OPTICAL STORAGE MEDIA: PRODUCTION SHARE BY TYPE, 2016
  • Figure 9: FORECAST - ADVANCED DISPLAYS: COATED AREA SHARE BY TYPE, 2016
  • Figure 10: PHOTOVOLTAIC MODULES: PRODUCTION SHARE BY TYPE, 2016
  • Figure 11: NANOTECHNOLOGY: GLOBAL MARKET SHARE BY SEGMENT, 2011
  • Figure 12: FORECAST - THIN FILM MATERIALS: MARKET SHARE BY APPLICATION, 2016
  • Figure 13: FORECAST - THIN FILM MATERIALS: GLOBAL MARKET SHARE BY DEPOSITION TECHNOLOGY, 2016
  • Figure 14: FORECAST - THIN FILM MATERIALS: MARKET SHARE BY REGION, 2016
  • Figure 15: THIN AND ULTRATHIN FILMS: PATENT SHARE BY REGION, 2011
  • Figure 16: THIN AND ULTRATHIN FILMS: PATENT SHARE BY COUNTRY, 2011
  • Figure 17: THIN AND ULTRATHIN FILMS: SHARES OF U.S. PATENTS BY CATEGORY, 2011
  • Figure 18: THIN AND ULTRATHIN FILMS: SHARES OF U.S. PATENTS BY DEPOSITION METHOD, 2011
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