Thin-layer Deposition: CVD, Ion Implantation and Epitaxy

Thin-layer Deposition: CVD, Ion Implantation and Epitaxy

BCC, Date of Publication: May 6, 2014, 121 Pages
US$6,650.00
GB-SMC027H
In recent years, the semiconductor industry has experienced a relatively positive and steady growth, primarily fueled by the demand for semiconductors, electronic components and devices for everyday items such as smartphones, tablets and laptops. The numerous processes involved in the manufacturing of semiconductors are crucial to their ability to perform per user specifications. Thin-layer deposition is an important process in the manufacturing of semiconductors and electronic components. Thin-layer deposition entails depositing a thin layer of a particular material onto a substance or substrate. The thickness of this layer varies in terms of nanometers.
 
The goal of this study was to determine the current status of the global market for thin-layer deposition by looking at three important technologies: chemical vapor deposition (CVD), ion implantation and molecular beam epitaxy (MBE). Each technology has its own unique advantages and suits specific requirements for the designated type of deposition. This report provides an in-depth analysis of these three technologies for the period from 2013 to 2019.
 
The primary objective of this study is to present a comprehensive analysis of these key technologies in thin-layer deposition and to provide insight into future market trends.
 
REASONS FOR DOING THE STUDY
 
The requirement for thin-layer deposition has changed considerably over the years. This is due to the fact that the numerous electronic devices currently being manufactured are considerably smaller and compact in comparison to their predecessors. Such changes require the technology and the equipment used for thin-layer deposition to be in tune with end-user requirements. In this aspect, we have conducted an extensive study into some of the most common thin-layer deposition technologies and provided a detailed analysis of their various advantages and uses. The research includes the services function of each technology. We believe that the changing dynamics in thin-layer deposition is of key interest to various industry participants.


INTENDED AUDIENCE

This study covers three types of thin-layer equipment, the materials used and the value of services provided by four key industry groups. An overview of thin-layer deposition and implantation technology and future trends, along with a global industry structure, including leading manufacturers and service providers, is reviewed and provided in the study. A review of the industry’s competition is presented in each section, as well as an overview of the major applications, advantages and analysis of market dynamics that will impact demand.

The study is intended for:

  • Manufacturers and suppliers of the three types of equipment discussed in this study.
  • Companies involved in the design, development and manufacture of semiconductors and other microelectronic products.
  • Manufacturers and suppliers of electronic materials and compound semiconductor wafers.
  • Manufacturers of medical devices and equipment.
  • Manufacturers and users of cutting tools.
  • Manufacturers of automotive and aerospace parts and related equipment.
  • Manufacturers and suppliers of industrial tools.
  • Companies involved in manufacturing and supplying advanced materials.

SCOPE OF REPORT

The scope of the study is limited to the three main technologies as named in the thin-layer deposition market. The materials used in these technologies are also studied and discussed in terms of their applications and unique properties.  This research analyzes the major types of CVD, ion implantation and epitaxy systems used to manufacture products in four key industries. Trends in demand and their impact on each thin-film technology, as well as key market drivers within each industry, are assessed and reviewed.

REPORT HIGHLIGHTS

The global chemical vapor deposition (CVD) market is expected to increase from $5 billion in 2014 to nearly $6.8 billion by the end of 2019, a compound annual growth rate (CAGR) of 6.3% for the five-year period, 2014 to 2019.

This report provides:

  • An overview of the global markets for thin-layer deposition technologies, including chemical vapor deposition (CVD), ion implementation and epitaxy.
  • Analyses of global market trends, with data from 2013, estimates for 2014, and projections of CAGRs through 2019.
  • Discussion of the advantages and limitations of each technology.
  • Domestic and international technological issues.
  • Analysis of the industry's manufacturing capacity and consumption by various regional markets.


TABLE OF CONTENTS

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Chapter 1: INTRODUCTION - Complimentary 

STUDY GOALS AND OBJECTIVES
REASONS FOR DOING THE STUDY
INTENDED AUDIENCE
SCOPE OF REPORT
METHODOLOGY
INFORMATION SOURCES
ANALYST'S CREDENTIALS
 
Chapter 2: SUMMARY  $250  
 
Chapter 3: OVERVIEW  $412 

DEPOSITION TECHNOLOGIES
MAJOR APPLICATIONS FOR THIN-LAYER DEPOSITION
MICROELECTRONICS
MEDICAL
INDUSTRIAL
TOOLING
MATERIAL CLASSIFICATION
 
Chapter 4: INDUSTRY STRUCTURE  $1237 

THIN-FILM INDUSTRY CHANGES
TECHNOLOGY EXPANSION IN THE ASIA-PACIFIC REGIONGLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY MANUFACTURING
GLOBAL CONSUMPTION OF CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY EQUIPMENT
MANUFACTURER MARKET SHARESCOMPANY PROFILES
AIXTRON SE
ADVANCED MICRO FABRICATION EQUIPMENT
APPLIED MATERIALS INC.ASM INTERNATIONAL NVCVD EQUIPMENT CORP.
IMPLANT SCIENCES CORP.
LAM RESEARCH CORP.
NUFLARE TECHNOLOGY INC.OXFORD INSTRUMENTS
RIBER S.A. GROUP
RICHTER PRECISION INC.
TOKYO ELECTRON LIMITED
VEECO INSTRUMENTS INC.Table 5 : COMPANIES IN THE CHEMICAL VAPOR DEPOSITION, ION IMPLANTATION AND EPITAXY BUSINESS
 
Chapter 5: THIN-FILM TECHNOLOGY  $1566 

CHEMICAL VAPOR DEPOSITION
ION IMPLANTATION
EPITAXY
RESEARCH AND DEVELOPMENT
CHEMICAL VAPOR DEPOSITION TECHNOLOGYION-IMPLANTATION TECHNOLOGY
BEAMLINE ION IMPLANTATION
PLASMA-IMMERSION ION IMPLANTATION
ION-ASSISTED DEPOSITION
Ion Beam-Assisted Deposition
EPITAXY
MOLECULAR BEAM EPITAXY
PATENTS FOR CHEMICAL VAPOR DEPOSITION, ION IMPLANTATION AND EPITAXY
PATENTS BY GLOBAL REGION
Chemical Vapor Deposition Patents
Ion-Implantation Patents
Molecular Beam Epitaxy Patents
Thin-Film Deposition Patents
 
Chapter- 6: CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY MARKETS  $165 

INDUSTRY APPROACH
INDUSTRY COMPETITIVENESS
MEASUREMENT OBJECTIVES
 
Chapter 7: CHEMICAL VAPOR DEPOSITION, ION IMPLANTATION AND EPITAXY IN THE MICROELECTRONICS MARKET  $2061 

MICROELECTRONICS PRODUCT DEFINITION
INDUSTRY COMPETITIVENESS OF THIN-FILM PROCESSES IN MICROELECTRONICS
ECONOMIC CONDITIONS IN MICROELECTRONICS
THIN-FILM PRODUCT DEVELOPMENT AND STANDARDS
Semiconductor Equipment and Materials International
SEMATECH
International Technology Roadmap for Semiconductors
Semiconductor Industry Association
GLOBAL ECONOMIC ENVIRONMENT
MICROELECTRONICS COMPETITIVENESS FACTORS
Driving Force for Chemical Vapor Deposition, Ion Implantation and Epitaxy
Impact of Market Growth Factors
SEMICONDUCTOR APPLICATIONS
MICROELECTRONIC MARKET SEGMENTS
CHEMICAL VAPOR DEPOSITION APPLICATIONS
SEMICONDUCTOR APPLICATIONS OF ION IMPLANTATION
EPITAXY APPLICATIONS FOR SEMICONDUCTORS
Metal Organic Chemical Vapor Deposition for Silicon Wafers
Molecular Beam Epitaxy Applications
MATERIALS USED IN SEMICONDUCTOR APPLICATIONS
CHEMICAL VAPOR DEPOSITION MATERIALS
ION IMPLANTATION MATERIALS
MOLECULAR BEAM EPITAXY MATERIALS
SEMICONDUCTOR MARKET DRIVERS AND TRENDS
WIRELESS COMMUNICATION NETWORKS
INCREASING DEMAND FOR HIGH-END GADGETS
NEXT-GENERATION TECHNOLOGIES
TELECOMMUNICATIONS INFRASTRUCTURE
THIN-FILM EQUIPMENT DEMAND
COMPONENTS
FLAT-PANEL DISPLAYS
LIGHT-EMITTING DIODES
Table 39 : MICROELECTRONIC APPLICATIONS FOR THIN-LAYER DEPOSITION
MARKET DRIVERS FOR OTHER MICROELECTRONIC PRODUCTS
CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY FORECAST IN MICROELECTRONICS
CHEMICAL VAPOR DEPOSITION EQUIPMENT SHIPMENTS
IMPLANTATION EQUIPMENT SHIPMENT VALUES
MOLECULAR BEAM EPITAXY EQUIPMENT SHIPMENTS
DEPOSITED CHEMICAL VAPOR DEPOSITION MATERIALS
Measurement Considerations
ION-IMPLANTATION MATERIALS
MOLECULAR BEAM EPITAXY MATERIALS
THIN-FILM EQUIPMENT SERVICES
SUMMARY
 
Chapter 8: CHEMICAL VAPOR DEPOSITION AND ION IMPLANTATION IN THE MEDICAL EQUIPMENT MARKET  $1484 

MEDICAL PRODUCT DEFINITION
INDUSTRY COMPETITIVENESS OF THIN-FILM PROCESSES IN THE MEDICAL PRODUCT MARKET
GLOBAL ECONOMICS
COST ISSUES
TECHNOLOGY
HIGHLY SOPHISTICATED MEDICAL DEVICE DEMAND
MEDICAL MARKET COMPETITIVENESS FACTORS
Driving Force for Chemical Vapor Deposition and Ion Implantation
Market Growth Factors
MEDICAL INDUSTRY APPLICATIONS
CHEMICAL VAPOR DEPOSITION APPLICATIONS
ION-IMPLANTATION APPLICATIONS
CHEMICAL VAPOR DEPOSITION AND ION-IMPLANTATION EQUIPMENT USED IN MEDICAL APPLICATIONS
MATERIALS USED FOR MEDICAL APPLICATIONS
CHEMICAL VAPOR DEPOSITION MATERIALS
ION-IMPLANTATION MATERIALS
MEDICAL MARKET DRIVERS AND TRENDS
THIN-FILM EQUIPMENT DEMAND
CHEMICAL VAPOR DEPOSITION
ION IMPLANTATIONCHEMICAL VAPOR DEPOSITION AND ION IMPLANTATION IN THE MEDICAL INDUSTRY
MEDICAL CHEMICAL VAPOR DEPOSITION SHIPMENT VALUES
MEDICAL ION-IMPLANTATION EQUIPMENT SHIPMENTS
CHEMICAL VAPOR DEPOSITION DEPOSITED MATERIALS
Measurement ConsiderationsIMPLANTATION MATERIALS
THIN- FILM DEPOSITION EQUIPMENT SERVICES
Chemical Vapor Deposition Services
Ion Implantation Services

Chapter 9: CHEMICAL VAPOR DEPOSITION IN THE CUTTING TOOL MARKET  $989 

PRODUCT DEFINITION
CUTTING TOOL INDUSTRY COMPETITIVENESS
INDUSTRIAL SECTOR GROWTH
GLOBAL ECONOMIC CLIMATE
NEW PRODUCT DEVELOPMENT
INTERNATIONAL MARKET GROWTH
TECHNOLOGY
CUTTING TOOL GROWTH FACTORS
Market Growth FactorsCUTTING TOOL APPLICATIONS
CHEMICAL VAPOR DEPOSITION REACTOR TYPES
Chemical Vapor Deposition versus Physical Vapor Deposition Process
Table 68 : CHEMICAL VAPOR DEPOSITION CUTTING TOOL APPLICATIONS
MATERIALS USED IN CUTTING TOOLS
CUTTING TOOL MARKET DRIVERS AND TRENDS
CHEMICAL VAPOR DEPOSITION EQUIPMENT DEMAND
CHEMICAL VAPOR DEPOSITION CUTTING TOOL INDUSTRY SHIPMENTS
DEPOSITED CHEMICAL VAPOR DEPOSITION MATERIALS
CHEMICAL VAPOR DEPOSITION SERVICES
 
Chapter 10: CHEMICAL VAPOR DEPOSITION AND ION IMPLANTATION IN THE INDUSTRIAL MARKET  $1566 

PRODUCT DEFINITION
INDUSTRIAL MARKET COMPETITIVENESS
AUTOMOTIVE MARKET
Domestic Economic Conditions
International Economic Conditions
Increasing Use of Electronics in Automobiles
Increasing Oil Prices
Safety, Sustainability and Environmental Awareness
Technology
AEROSPACE MARKETINDUSTRIAL CHEMICAL VAPOR DEPOSITION AND ION-IMPLANTATION MARKET GROWTH FACTORS
Driving Force for Chemical Vapor DepositionINDUSTRIAL THIN-FILM APPLICATIONS
CHEMICAL VAPOR DEPOSITION PROCESSCHEMICAL VAPOR DEPOSITION AND ION- IMPLANTATION APPLICATIONS
CHEMICAL VAPOR DEPOSITION AND ION-IMPLANTATION EQUIPMENT USED IN INDUSTRIAL APPLICATIONSMATERIALS USED FOR INDUSTRIAL APPLICATIONS
CHEMICAL VAPOR DEPOSITION MATERIALS
ION-IMPLANTATION MATERIALS
INDUSTRIAL MARKET DRIVERS AND TRENDS
THIN-FILM EQUIPMENT DEMAND
CHEMICAL VAPOR DEPOSITION AND ION IMPLANTATION IN THE INDUSTRIAL MARKET
INDUSTRIAL CHEMICAL VAPOR DEPOSITION EQUIPMENT SHIPMENTS
INDUSTRIAL ION-IMPLANTANTION EQUIPMENT SHIPMENTS
CHEMICAL VAPOR DEPOSITION DEPOSITED MATERIALSION-IMPLANTATION MATERIALS
THIN-FILM EQUIPMENT SERVICES
Chemical Vapor Deposition Services
Ion Services
 
List of Tables

Summary Table : GLOBAL CHEMICAL VAPOR DEPOSITION, ION IMPLANTATION AND EPITAXY MARKETS, THROUGH 2019
Table 1 : MAJOR DEPOSITION STUDIES BY BCC RESEARCH
Table 2 : THIN-FILM TECHNOLOGIES
Table 3 : THIN-FILM TECHNOLOGY APPLICATIONS BY MARKET
Table 4 : MATERIALS AND APPLICATIONS
Table 5 : COMPANIES IN THE CHEMICAL VAPOR DEPOSITION, ION IMPLANTATION AND EPITAXY BUSINESS
Table 6 : GLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY EQUIPMENT MANUFACTURING MARKET BY REGION, 2013-2019
Table 7 : GLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY CONSUMPTION MARKET SHARE BY REGION, 2013-2019
Table 8 : GLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY MANUFACTURER MARKET SHARES, 2013
Table 9 : TECHNICAL ADVANTAGES OF THE CHEMICAL VAPOR DEPOSITION PROCESS
Table 10 : TECHNICAL ADVANTAGES OF METAL ORGANIC CHEMICAL VAPOR DEPOSITION
Table 11 : TECHNICAL ADVANTAGES OF ATMOSPHERIC PRESSURE CHEMICAL VAPOR DEPOSITION
Table 12 : TECHNICAL ADVANTAGES OF LOW-PRESSURE CHEMICAL VAPOR DEPOSITION
Table 13 : TECHNICAL ADVANTAGES OF PLASMA-ENHANCED CHEMICAL VAPOR DEPOSITION
Table 14 : TECHNICAL ADVANTAGES OF HIGH-DENSITY PLASMA CHEMICAL VAPOR DEPOSITION
Table 15 : TECHNICAL ADVANTAGES OF TETRA-ETHOXYSILANE OZONE CHEMISTRY
Table 16 : TECHNICAL ADVANTAGES OF AN ION-IMPLANTATION PROCESS
Table 17 : ADVANTAGES OF BEAMLINE IMPLANTATION
Table 18 : ADVANTAGES OF PLASMA-IMMERSION ION IMPLANTATION
Table 19 : TECHNICAL ADVANTAGES OF ION BEAM-ASSISTED DEPOSITION/PLASMA-IMMERSION ION IMPLANTATION
Table 20 : ADVANTAGES OF MOLECULAR BEAM EPITAXY
Table 21 : CHEMICAL VAPOR DEPOSITION-RELATED PATENTS BY REGION, 2011-2013
Table 22 : CHEMICAL VAPOR DEPOSITION-RELATED PATENTS BY COUNTRY, 2011-2013
Table 23 : ION-IMPLANTATION-RELATED PATENTS BY REGION, 2011-2013
Table 24 : ION-IMPLANTATION-RELATED PATENTS BY COUNTRY, 2011-2013
Table 25 : MOLECULAR BEAM EPITAXY-RELATED PATENTS BY REGION, 2011-2013
Table 26 : MOLECULAR BEAM EPITAXY-RELATED PATENTS BY COUNTRY, 2011-2013
Table 27 : THIN-FILM DEPOSITION-RELATED PATENTS BY REGION, 2011-2013
Table 28 : THIN-FILM DEPOSITION-RELATED PATENTS BY COUNTRY, 2011-2013
Table 29 : CHEMICAL VAPOR DEPOSITION, ION IMPLANTATION AND EPITAXY PRODUCTS
Table 30 : INTEGRATED CIRCUIT CHANGES AND REQUIREMENTS
Table 31 : GLOBAL MICROELECTRONIC PRODUCT DEMAND BY TYPE, 2009–2013
Table 32 : ADVANTAGES OF STANDARDS
Table 33 : CHEMICAL VAPOR DEPOSITION, ION IMPLANTATION AND EPITAXY IN THE MICROELECTRONICS INDUSTRY GROWTH FACTORS
Table 34 : BASIC AND EMERGING CHEMICAL VAPOR DEPOSITION WITHIN THE MICROELECTRONICS SEGMENT SEMICONDUCTOR APPLICATIONS
Table 35 : SEMICONDUCTOR DEVICES MANUFACTURED BY MOLECULAR BEAM EPITAXY
Table 36 : MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION IN THE FABRICATION OF SEMICONDUCTORS
Table 37 : MATERIALS USED FOR ION IMPLANTATION IN SEMICONDUCTOR FABRICATION
Table 38 : MATERIALS USED IN MOLECULAR BEAM EPITAXY OPERATIONS
Table 39 : MICROELECTRONIC APPLICATIONS FOR THIN-LAYER DEPOSITION
Table 40 : THIN-FILM GROWTH IN THE MICROELECTRONICS INDUSTRY
Table 41 : GLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY THIN-FILM EQUIPMENT TECHNOLOGY GROWTH TRENDS, THROUGH 2019
Table 42 : GLOBAL CHEMICAL VAPOR DEPOSITION EQUIPMENT SHIPMENTS FOR THE MICROELECTRONICS INDUSTRY, THROUGH 2019
Table 43 : GLOBAL ION-IMPLANTATION EQUIPMENT FOR THE MICROELECTRONICS MARKET, THROUGH 2019
Table 44 : GLOBAL MOLECULAR BEAM EPITAXY SHIPMENTS FOR MICROELECTRONIC APPLICATIONS, THROUGH 2019
Table 45 : GLOBAL MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION IN THE MICROELECTRONICS INDUSTRY VALUE, THROUGH 2019
Table 46 : GLOBAL MATERIALS USED FOR ION IMPLANTATION IN THE MICROELECTRONICS MARKET, THROUGH 2019
Table 47 : GLOBAL MATERIALS USED FOR MOLECULAR BEAM EPITAXY IN THE MICROELECTRONICS MARKET VALUE, THROUGH 2019
Table 48 : GLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY SERVICES IN THE MICROELECTRONICS INDUSTRY MARKET VALUE, THROUGH 2019
Table 49 : GLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY EQUIPMENT, MATERIALS AND SERVICES FOR MICROELECTRONICS, THROUGH 2019
Table 50 : MEDICAL DEVICE TYPES
Table 51 : POSITIVE ECONOMIC FACTORS FOR THE MEDICAL DEVICE INDUSTRY
Table 52 : FACTORS IMPACTING THE GROWTH OF CHEMICAL VAPOR DEPOSITION AND ION IMPLANTATION IN THE MEDICAL INDUSTRY
Table 53 : MEDICAL INDUSTRY CHEMICAL VAPOR DEPOSITION APPLICATIONS
Table 54 : ION–IMPLANTATION APPLICATIONS IN THE MEDICAL INDUSTRY
Table 55 : MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION FOR MEDICAL APPLICATIONS
Table 56 : MATERIALS USED FOR ION IMPLANTATION AND ION BEAM-ASSISTED DEPOSITION IN MEDICAL APPLICATIONS
Table 57 : GLOBAL MEDICAL EQUIPMENT AND THIN-FILM EQUIPMENT GROWTH TRENDS, THROUGH 2019
Table 58 : THIN-FILM GROWTH IN THE MEDICAL INDUSTRY
Table 59 : GLOBAL CHEMICAL VAPOR DEPOSITION SHIPMENTS FOR THE MEDICAL EQUIPMENT MARKET, THROUGH 2019
Table 60 : GLOBAL ION-IMPLANTATION EQUIPMENT SHIPMENTS FOR THE MEDICAL INDUSTRY, THROUGH 2019
Table 61 : GLOBAL CHEMICAL VAPOR DEPOSITION-DEPOSITED MATERIALS IN THE MEDICAL INDUSTRY VALUE, THROUGH 2019
Table 62 : GLOBAL MATERIALS USED FOR ION IMPLANTATION IN THE MEDICAL INDUSTRY, THROUGH 2019
Table 63 : GLOBAL CHEMICAL VAPOR DEPOSITION AND ION-IMPLANTATION SERVICES IN THE MEDICAL MARKET, THROUGH 2019
Table 64 : CUTTING TOOL TYPES
Table 65 : STANDARD COATING VERSUS CUSTOMIZED COATING, 2013-2019
Table 66 : GLOBAL CUTTING TOOL MARKET SHARE BY REGION, 2013-2019
Table 67 : CHEMICAL VAPOR DEPOSITION GROWTH FACTORS IN THE CUTTING TOOL INDUSTRY
Table 68 : CHEMICAL VAPOR DEPOSITION CUTTING TOOL APPLICATIONS
Table 69 : MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION IN THE CUTTING TOOL INDUSTRY
Table 70 : GLOBAL CHEMICAL VAPOR DEPOSITION EQUIPMENT FOR THE CUTTING TOOL INDUSTRY GROWTH TRENDS, THROUGH 2019
Table 71 : CHEMICAL VAPOR DEPOSITION EQUIPMENT FOR THE CUTTING TOOL MARKET, THROUGH 2019
Table 72 : GLOBAL MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION IN THE CUTTING TOOL INDUSTRY VALUE, THROUGH 2019
Table 73 : GLOBAL CHEMICAL VAPOR DEPOSITION COATING SERVICES IN THE CUTTING TOOL INDUSTRY VALUE, THROUGH 2019
Table 74 : INDUSTRIAL PRODUCTS
Table 75 : FACTORS IMPACTING THE AUTOMOTIVE INDUSTRY
Table 76 : U.S. AEROSPACE SALES BY PRODUCT, 2010-2014
Table 77 : CHEMICAL VAPOR DEPOSITION AND ION-IMPLANTATION APPLICATIONS IN THE INDUSTRIAL MARKET
Table 78 : MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION FOR INDUSTRIAL APPLICATIONS
Table 79 : MATERIALS USED FOR ION IMPLANTATION IN THE INDUSTRIAL MARKET
Table 80 : GLOBAL CHEMICAL VAPOR DEPOSITION AND ION-IMPLATATION THIN–FILM EQUIPMENT TECHNOLOGY GROWTH TRENDS IN THE INDUSTRIAL SECTORS, THROUGH 2019
Table 81 : GLOBAL CHEMICAL VAPOR DEPOSITION EQUIPMENT SHIPMENTS FOR THE INDUSTRIAL MARKET, THROUGH 2019
Table 82 : ION-IMPLANTATION EQUIPMENT SHIPPED FOR THE INDUSTRIAL SEGMENT, THROUGH 2019
Table 83 : GLOBAL MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION IN THE INDUSTRIAL MARKETS VALUE, THROUGH 2019
Table 84 : GLOBAL MATERIALS USED FOR ION-RELATED INDUSTRIAL APPLICATIONS VALUE, THROUGH 2019
Table 85 : GLOBAL CHEMICAL VAPOR DEPOSITION AND ION-IMPLANTATION SERVICES IN THE INDUSTRIAL MARKET VALUE, THROUGH 2019
 
List of Figures

Summary Figure : GLOBAL CHEMICAL VAPOR DEPOSITION, ION IMPLANTATION AND EPITAXY MARKETS, 2013-2019
Figure 1 : GLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY MANUFACTURING MARKET BY REGION, 2013-2019
Figure 2 : GLOBAL CHEMICAL VAPOR DEPOSITION, ION-IMPLANTATION AND EPITAXY CONSUMPTION MARKET SHARE BY REGION, 2013-2019
Figure 3 : GLOBAL CHEMICAL VAPOR DEPOSITION EQUIPMENT SHIPMENTS FOR MICROELECTRONICS, 2013-2019
Figure 4 : GLOBAL ION-IMPLANTATION EQUIPMENT FOR MICROELECTRONICS MARKET, 2013-2019
Figure 5 : GLOBAL MOLECULAR BEAM EPITAXY EQUIPMENT SHIPMENTS FOR MICROELECTRONICS, 2013-2019
Figure 6 : GLOBAL MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION VALUE, 2013-2019
Figure 7 : GLOBAL MATERIALS USED FOR ION IMPLANTATION IN THE MICROELECTRONICS MARKET VALUE, 2013-2019
Figure 8 : GLOBAL MATERIALS CONSUMED BY MOLECULAR BEAM EPITAXY BY THE MICROELECTRONICS INDUSTRY MARKET VALUE, 2013-2019
Figure 9 : GLOBAL CHEMICAL VAPOR DEPOSITION EQUIPMENT SHIPMENTS FOR THE MEDICAL SUPPLY BUSINESS, 2013-2019
Figure 10 : GLOBAL ION-IMPLANTATION EQUIPMENT SHIPMENTS FOR MEDICAL PRODUCTS, 2013-2019
Figure 11 : GLOBAL CHEMICAL VAPOR DEPOSITION-DEPOSITED MATERIALS IN THE MEDICAL SUPPLY INDUSTRY, 2013-2019
Figure 12 : MATERIALS USED FOR ION IMPLANTATION IN THE MEDICAL INDUSTRY, 2013-2019
Figure 13 : GLOBAL CHEMICAL VAPOR DEPOSITION EQUIPMENT IN THE CUTTING TOOL INDUSTRY, 2013-2019
Figure 14 : GLOBAL MATERIALS FOR CHEMICAL VAPOR DEPOSITION IN THE CUTTING TOOL INDUSTRY VALUE, 2013-2019
Figure 15 : GLOBAL AUTOMOTIVE CHEMICAL VAPOR DEPOSITION EQUIPMENT SYSTEMS IN THE INDUSTRIAL MARKET, 2013-2019
Figure 16 : GLOBAL AEROSPACE CHEMICAL VAPOR DEPOSITION EQUIPMENT SYSTEMS IN THE INDUSTRIAL MARKET, 2013-2019
Figure 17 : GLOBAL ION-RELATED EQUIPMENT IN THE AUTOMOTIVE AND AEROSPACE INDUSTRIES, 2013-2019
Figure 18 : GLOBAL MATERIALS DEPOSITED BY CHEMICAL VAPOR DEPOSITION FOR THE INDUSTRIAL MARKET VALUE, 2013-2019
Figure 19 : GLOBAL MATERIALS USED FOR ION-RELATED INDUSTRIAL APPLICATIONS VALUE, 2013-2019
 

 

 

 

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Date of Publication:
May 6, 2014
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