Atomic Layer Deposition and other Ultrathin-Film Fabrication Processes

  • ID: 3973383
  • Report
  • Region: Global
  • 152 Pages
  • BCC Research
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The Global Market for Atomic Layer Deposition and Other Ultrathin Film Fabrication Processes is Expected to Increase from $1.5 Billion in 2016 to Nearly $3.7 Billion in 2021 at a CAGR of 19.1%

FEATURED COMPANIES

  • Aixtron
  • ASM International
  • Kurt J. Lesker
  • Meyer Burger
  • Picosun
  • TORR
  • MORE

The global market for atomic layer deposition and other ultrathin film fabrication processes was valued at $1.1 billion and $1.3 billion in 2014 and 2015, respectively. This market is expected to increase from $1.5 billion in 2016 to nearly $3.7 billion in 2021 at a compound annual growth rate (CAGR) of 19.1% for 2016-2021.

This report provides:

  • An overview of the global markets for atomic layer deposition and other ultrathin-film fabrication processes.
  • Analyses of global market trends, with data from 2014 and 2015, estimates for 2016 and projections of compound annual growth rates (CAGRs) through 2021.
  • Focused coverage of materials, equipment, and fabrication technologies.
  • A look at existing fields of application for atomic layer deposition as well as emerging applications.
  • Coverage of these processes in relation to industry segments such as electronics, mechanical, chemical, energy, optics, medical, biological, dental, medical, and nanotechnology.
  • Analysis of the market's dynamics, specifically growth drivers, restraints, and opportunities.
  • Profiles of major players in the industry.

Report Scope:

This report provides an updated review of atomic layer deposition and other ultrathin film deposition technologies, and identifies current and emerging applications for these technologies.

The current market status for ultrathin film deposition equipment, defines trends and presents growth forecasts for the next five years. The UTFE market is analyzed based on the following segments: process, application and region. In addition, technological issues, including key events and the latest process developments, are discussed.

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

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

The second section provides a review of deposition technologies for ultrathin films. This section offers a revised and detailed description of various thin film coating processes; existing deposition methods for ultrathin films; and new and emerging fabrication processes. This section concludes with an analysis of the most important technological developments since 2013, including examples of significant patents recently issued or applied for, as well as highlighting the most active research organizations operating in this field.

The third section entails a global market analysis for UTFE. Global revenues (sales data in millions of dollars) are presented for each segment (process, application and region), with actual data referring to the years 2014 and 2015, and estimates for 2016.

The analysis of current UTFE 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 UTFE revenues 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 suppliers of UTFE, 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 ultrathin film fabrication methods, equipment and applications. Patent analysis is performed by region, country, assignee, patent category, application and process type.

Intended Audience:

This study will be of primary interest to all organizations that:

  • Manufacture, sell, and distribute ALD and other ultrathin film deposition equipment
  • Manufacture tools and parts utilized by UTFE producers
  • Produce devices based on ultrathin films
  • Offer thin film deposition and coating services
  • Manufacture processing and characterization equipment for the nano and ultrathin film industry
  • Provide technical and/or marketing services in conjunction with the above mentioned products
  • Are planning to enter the ultrathin film and nanotechnology industry as a supplier, manufacturer, service provider or end user
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FEATURED COMPANIES

  • Aixtron
  • ASM International
  • Kurt J. Lesker
  • Meyer Burger
  • Picosun
  • TORR
  • MORE

1: Introduction

  • Study Goals And Objectives
  • Reasons For Doing This Study
  • Intended Audience
  • Scope Of Report

2: Executive Summary

  • Table Summary : Global Atomic Layer Deposition And Other Ultrathin Film Fabrication Processes Market, By Segment, Through 2021
  • Figure Summary : Global Atomic Layer Deposition And Other Ultrathin Film Fabrication Processes Market, By Segment, 2014-2021

3: Overview

  • Thick, Thin And Ultrathin Films
  • Review Of The History Of Atomic Layer Deposition And Recent Events
  • Current And Emerging Applications For Atomic Layer Deposition And Other Ultrathin Film Fabrication Processes

4: Deposition Technologies For Ultrathin Films

  • Introduction
  • Thin Film Deposition Processes
  • Deposition Technologies For Ultrathin Films
  • Other Relevant R&D Activities

5: Global Markets

  • Analysis Outline
  • Global Market Summary
  • Current Market Status
  • Market Growth Trends
  • Market Forecast

6: Global Industry Structure

  • Leading Suppliers Of Ultrathin Film Deposition Equipment
  • Other Players In The Ultrathin Film Industry
  • Company Profiles

7: Patent Analysis

  • Introduction
  • Summary Of Recently Awarded Patents
  • General Trends
  • Trends By Country And Region
  • Trends By Assignee
  • Trends By Patent Category
  • Trends By Application
  • Trends By Process Type

List of Tables:
Summary Table: Global Atomic Layer Deposition And Other Ultrathin Film Fabrication Processes Market, By Segment, Through 2021
Table 1: Atomic Layer Deposition: Technological Milestones
Table 2: Applications For Ultrathin Film Processes, 2016
Table 3: Ultrathin Film Applications In Electronics, 2016
Table 4: Ultrathin Film Applications In Optoelectronics, 2016
Table 5: Ultrathin Film Applications In The Mechanical/ Chemical Sector, 2016
Table 6: Ultrathin Film Applications In The Sensors And Instrumentation Sector, 2016
Table 7: Ultrathin Film Applications In The Energy Sector, 2016
Table 8: Ultrathin Film Applications In The Optical Coatings Sector, 2016
Table 9: Ultrathin Film Applications In Life Sciences, 2016
Table 10: Other Ultrathin Film Applications, 2016
Table 11: Thin Film Printing Technologies, 2016
Table 12: Thin-Film Coating Technologies, 2016
Table 13: Deposition Technologies For Ultrathin Films, 2016
Table 14: Deposition Technologies For Ultrathin Films, 2016
Table 15: Thermal Evaporation: Basic Process Steps
Table 16: Electron Beam Evaporation: Basic Process Steps
Table 17: Molecular Beam Epitaxy: Basic Process Steps
Table 18: Laser Ablation/Pld: Basic Process Steps
Table 19: Sputtering: Basic Process Steps
Table 20: Chemical Vapor Deposition: Basic Process Steps
Table 21: Metal-Organic Cvd: Basic Process Steps
Table 22: Ald Technologies, 2016
Table 23: Chemical Solution Deposition: Typical Routes
Table 24: Chemical Solution Deposition: Basic Process Steps
Table 25: Other Relevant R&D Activities
Table 26: Global Ultrathin Film Deposition Market, By Segment, Through 2021
Table 27: Global Thin Film Processes Market, Through 2016
Table 28: Global Thin Film Equipment Market, By Process, Through 2016
Table 29: Global Ultrathin Film Equipment Market, By Process, Through 2016
Table 30: Global Ald Equipment Market, By Type, Through 2016
Table 31: Global Ultrathin Film Equipment Market, By Application And Equipment Type, 2016
Table 32: Global Ultrathin Film Equipment Market, By Region, Through 2016
Table 33: Global Semiconductors Market, By Region, Through 2021
Table 34: Global Mems And Nems Market, By Type, Through 2021
Table 35: Global Hard Disk Drives Production, By Type, Through 2021
Table 36: Global Advanced Displays Market, By Type, Through 2021
Table 37: Global Optical Fibers Market, Through 2021
Table 38: Global Sensors Market, By Type, Through 2021
Table 39: Forecast - Biosensors And Other Common Sensors: Global Revenues Through 2021
Table 40: Forecast - Photovoltaic Modules: Global Production By Type, Through 2021
Table 41: Forecast-Fuel Cells: Global Revenues By Type, Through 2021
Table 42: Forecast-Implantable Devices: Revenues By Region, Through 2021
Table 43: Forecast-Wear And Corrosion Resistant Parts: Global Revenues By Type, Through 2021
Table 44: The Nanotechnology Industry, 2016
Table 45: Global Nanotechnology Market, By Segment, Through 2021
Table 46: Global Ultrathin Film Equipment Market, By Application, Through 2021
Table 47: Forecast-Ultrathin Film Equipment: Global Revenues By Application And Equipment Type, 2021
Table 48: Forecast-Ultrathin Film Equipment: Global Revenues By Process, Through 2021
Table 49: Forecast-Ald Equipment: Global Revenues By Type, Through 2021
Table 50: Forecast-Ultrathin Film Equipment: Revenues, By Region, Through 2021
Table 51: Leading Suppliers of Ultrathin Film Deposition Equipment, 2016
Table 52: Leading Suppliers of Ultrathin Film Deposition Equipment, By Type, 2016
Table 53: Leading Suppliers of Ultrathin Film Deposition Equipment, By Type And Region, 2016
Table 54: Other Relevant Industry Players, 2016
Table 55: Ultrathin Film Deposition Processes: U.S. Patents, 2016
Table 56: Ultrathin Film Fabrication Processes: U.S. Patent Trends, Through 2016
Table 57: Assignees of U.S. Patents Related To Ultrathin Film Fabrication Processes, 2015-2016

List of Figures:
Summary Figure: Global Atomic Layer Deposition And Other Ultrathin Film Fabrication Processes Market, By Segment, 2014-2021
Figure 1: Thin Film Methods (Equipment, Materials, Services): Global Market Share By Group of Technologies, 2016
Figure 2: Atomic Layer Deposition: Global Patent Applications And Patents Issued, 1990-2015
Figure 3: Global Ultrathin Film Deposition Technologies Market, 2014-2021
Figure 4: Global Thin Film Processes Market Share, By Material, Equipment And Services, 2016
Figure 5: Global Thin Film Equipment Market Share, By Process, 2016
Figure 6: Global Ultrathin Film Equipment Market Share, By Process, 2016
Figure 7: Global Ald Equipment Market Share, By Type, 2016
Figure 8: Global Ultrathin Film Equipment Market Share, By Application, 2016
Figure 9: Global Ultrathin Film Equipment Market Share, By Region, 2016
Figure 10: From Microelectronics To Nanoelectronics
Figure 11: Global Nanotechnology Market Share, By Segment, 2021
Figure 12: Global Ultrathin Film Equipment Market Share, By Application, 2021
Figure 13: Forecast - Ultrathin Film Equipment: Market Share By Process, 2021
Figure 14: Forecast-Ald Equipment Market Share, By Type, 2021
Figure 15: Forecast-Ultrathin Film Equipment: Market Share By Region, 2021
Figure 16: Ultrathin Film Fabrication Processes: U.S. Patent Trends, 2014-2016
Figure 17: Ultrathin Film Fabrication Processes: Patent Share, By Region, 2016
Figure 18: Ultrathin Film Fabrication Processes: Patent Share, By Country, 2016
Figure 19: Ultrathin Film Fabrication Processes: Shares of U.S. Patents By Organization Type, 2016
Figure 20: Ultrathin Film Fabrication Processes: Shares of U.S. Patents By Category, 2016
Figure 21: Ultrathin Film Fabrication Processes: Shares of U.S. Patents, By Application, 2016
Figure 22: Ultrathin Film Fabrication Processes: Shares of U.S. Patents, By Process Type, 2016

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FEATURED COMPANIES

  • Aixtron
  • ASM International
  • Kurt J. Lesker
  • Meyer Burger
  • Picosun
  • TORR
  • MORE

Analyst Credentials: Margareth Gagliardi

Margareth Gagliardi has extensive experience in the field of advanced materials, specializing in ceramic formulations, materials processing, and new product development. For more than 20 years, 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 currently works as a consultant serving a variety of organizations and research institutions. She holds a B.S. in Chemical Engineering and an M.S. in Ceramic Engineering.

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  • Aixtron
  • Apex Instruments
  • Applied Materials
  • ASM International
  • BENEQ
  • Jusung Engineering
  • Kurt J. Lesker
  • LAM Research
  • LJ UHV Technology
  • Meyer Burger
  • Nano-Master
  • Oxford Instruments
  • Picosun
  • PVD Products
  • Sentech
  • TORR
  • TSST
  • Ultratech
  • Veeco Instruments
  • Wonik IPS
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