Key Highlights
• Thin film deposition for semiconductors is a vital manufacturing procedure used in the semiconductor sector. In order to create complex electronic components and integrated circuits, it entails the precise deposition of tiny layers of diverse materials onto semiconductor substrates. This method is essential for improving overall functionality, enabling smaller form factors, and enhancing gadget performance. Chemical vapor deposition (CVD), physical vapor deposition (PVD), and atomic layer deposition (ALD) are a few of the technologies used in the process, which are all designed to deposit materials including metals, oxides, and semiconductors onto substrates. As the semiconductor business propels technological improvements in a variety of industries, including renewable energy, telecommunications, and electronics.
• The market size of the worldwide Semiconductor Thin Film Deposition Industry surpassed USD XX billion in 2022, and by 2032, it is projected to reach USD XX billion, boosting at a CAGR of XX%.
• March 2019, the developer of large PVD coating systems for bulky, heavy substrates, INORCOAT, created a system of moving magnetrons. Parts that are simple to handle and assist the PVD process have been added as a result of this development, enabling it to achieve the necessary efficacy and productivity for both new and current clients.
• The importance of global semiconductor thin film deposition in the semiconductor industry is supported by a number of driving factors. The constant quest for smaller size and greater functionality in electronic products is a major motivator. Advanced integrated circuits and microelectronics depend on the ability to create complex layers with exact characteristics, which is made possible via thin film deposition. The need for increased gadget performance and efficiency is another motivating element. Thin film deposition techniques improve semiconductor properties, enabling devices to operate at higher processing rates, larger storage capacity, and with less energy usage. The demand for complex semiconductor components is increased by rapid technological advancement in sectors like consumer electronics, telecommunications, and healthcare. The production of advanced sensors, screens, and memory chips, which power these improvements, depends on thin film deposition. Additionally, the demand for thin film solar cells and energy-efficient semiconductor devices is being fuelled by the global trend toward renewable energy sources. Therefore, continuing research and development in thin film deposition methods is essential for addressing the changing requirements of contemporary technology and advancing worldwide technology.
Scope of the Industry Profile
Key Players
• AJA International, Inc. (US)
• Blue Wave Semiconductors Inc. (US)
• Canon ANELVA Corporation (Japan)
• CVD Equipment Corporation (US)
• Intevac Inc. (US)
• Kenosistec Sr (Italy)
• Lam Research Corporation (US)
• Plasma-Therm LLC (US)
• Plassys Bestek (France)
• PVD Products, Inc. (US))
Segmentation
By Atomic Layer Deposition
• Catalytic ALD
• Metal ALD
• Plasma-enhanced ALD
By Physical Vapor Deposition
• Thermal Evaporation
• Sputter Deposition
• Arc Vapor Deposition
By Application
• Microelectronics
• Industrial & Energy
• Medical Devices & Equipment
• Cutting Tools
By Chemical Vapor Deposition
• Plasma Enhanced CVD
• Low Pressure CVD
• Atmospheric Pressure CVD
• Metal Organic CVD
What to Expect from Industry Profile
1. Save time carrying out entry-level research by identifying the size, growth, major segments, and leading players in the Semiconductor Thin Film Deposition market in the world.
2. Use the PORTER’s Five Forces analysis to determine the competitive intensity and therefore market attractiveness of the Global Semiconductor Thin Film Deposition market.
3. Leading company profiles reveal details of key Semiconductor Thin Film Deposition market players’ global operations, strategies, financial performance & their recent developments.
4. Add weight to presentations and pitches by understanding the future growth prospects of the Global Semiconductor Thin Film Deposition market with forecast for decade by both market share (%) & revenue (USD Million).
Recent Development
• In July 2019, In accordance with a finalized deal, global investment firm KKR will sell all of its shares of Kokusai Electric Corporation to Applied Materials, Inc. for USD 2.2 billion in cash.
• March 2019, the developer of large PVD coating systems for bulky, heavy substrates, INORCOAT, created a system of moving magnetrons. Parts that are simple to handle and assist the PVD process have been added as a result of this development, enabling it to achieve the necessary efficacy and productivity for both new and current clients.
Segment Insights
By Application
Due to its crucial role in improving device performance and enabling cutting-edge capabilities, semiconductor thin film deposition is in high demand in microelectronics applications. Precise thin film deposition techniques are essential in the world of microelectronics, where devices are getting smaller while getting more complicated. For the fabrication of complex components like transistors, capacitors, and interconnects, these methods produce ultra-thin layers with precise characteristics. Thin film deposition is essential for improving conductivity, insulation, and material compatibility as microelectronic devices get more potent and energy-efficient. In new technologies where efficiency and compactness are critical, such as wearable electronics, flexible displays, and IoT devices, this is especially important. The development of 5G networks, edge computing, and artificial intelligence all contribute to the demand for advanced semiconductor components, which rely on complex thin film layers to perform at their best. As a result, the constant quest for smaller, quicker, and more effective electronic devices is intimately related to the rising need for semiconductor thin film deposition in microelectronics.
Regional Insights
In the North American region, there is an increase in demand for semiconductor thin film deposition due to a number of variables. First off, with a sizable concentration of semiconductor producers, research facilities, and top technology corporations, North America is a center for technological innovation. Precision thin film deposition techniques are essential as these organizations work to create cutting-edge gadgets with improved performance and efficiency. Second, the demand for sophisticated semiconductor components is being driven by industries like artificial intelligence, the Internet of Things (IoT), and autonomous vehicles, which calls for complex thin film layers. The development of thin film deposition technology is fuelled by North America's dominance in these industries. The demand is further influenced by the promotion of thin film solar cells and other renewable energy sources in North America. Furthermore, the development of energy-efficient semiconductor devices made possible by thin film deposition is consistent with the area's dedication to sustainability and environmental responsibility. Semiconductor Thin Film Deposition is a crucial factor in the expansion of the North American semiconductor sector because of this convergence of technological capability, innovation, and sustainability.
1 INTRODUCTION
1.1 Study Objectives
1.2 Market Definitions
1.2.1 Inclusions & Exclusions
1.2.2 Region: Inclusions & Exclusions
1.2.3 Study Scope
1.2.3.1 Markets Covered
1.2.3.2 Regional Scope
1.2.3.3 Years Considered
1.2.4 Currency Considered
1.2.5 Limitations
1.2.6 Summary Of Report (Chapter Wise Summary)
2 RESEARCH METHODOLOGY
2.1 Research Data
2.1.1 Secondary & Primary Research
2.1.2 Secondary Data
2.1.2.1 Secondary Sources
2.1.3 Primary Data
2.1.3.1 Primary Sources
2.2 Market Breakdown & Data Triangulation
2.3 Market Size Estimation
2.3.1 Bottom-Up Approach
2.3.2 Top-Down Approach
2.4 Research Assumptions & Limitations
2.4.1 Assumptions
2.4.2 Limitations
3 EXECUTIVE SUMMARY
4 ACROSS THE GLOBE
4.1 Upcoming Attractive Market Opportunities
4.2 Country Wise Market Growth
4.3 Segment Wise Market Growth
5 MARKET OVERVIEW
5.1 Market Introduction
5.2 Market Dynamics
5.2.1 Drivers
5.2.2 Restraints
5.2.3 Opportunities
5.2.4 Challenges
5.3 PORTOR’S Five Forces Analysis
5.3.1 Threat of New Entrants
5.3.2 Threat of Substitutes
5.3.3 Bargaining Power of Suppliers
5.3.4 Bargaining Power of Buyers
5.3.5 Intensity of Competitive Rivalry
5.4 Market Premium insights (Enterprise license)
5.4.1 Case Study Analysis
5.4.2 Country Wise Import & Export Data (If
Applicable)
5.4.3 Regulatory Bodies & Authorization
Across the Globe
5.4.4 Key Conferences & Events: 2022 &
2023
5.4.5 Top Patents for The Market: 2022
6 SEMICONDUCTOR THIN FILM DEPOSITION
MARKET OVERVIEW, BY PHYSICAL VAPOR DEPOSITION
6.1 Global Market Revenue & Share Analysis, By Physical
Vapor Deposition
6.1.1 Thermal Evaporation
6.1.2 Sputter Deposition
6.1.3 Arc Vapor Deposition
6.2 Global Market Revenue & Share Analysis, 2018 – 2022
6.3 Global Market Revenue & Share Forecast Analysis, 2023 –
2032
6.4 Key Takeaways
7 SEMICONDUCTOR THIN FILM DEPOSITION
MARKET OVERVIEW, BY APPLICATION
7.1 Global Market Revenue & Share Analysis, By Application
7.1.1 Microelectronics
7.1.2 Industrial & Energy
7.1.3 Medical Devices & Equipment
7.1.4 Cutting Tools
7.2 Global Market Revenue & Share Analysis, 2018 – 2022
7.3 Global Market Revenue & Share Forecast Analysis, 2023 –
2032
7.4 Key Takeaways
8 SEMICONDUCTOR THIN FILM DEPOSITION
MARKET OVERVIEW, BY CHEMICAL VAPOR DEPOSITION
8.1 Global Market Revenue & Share Analysis, By Chemical
Vapor Deposition
8.1.1 Plasma Enhanced CVD
8.1.2 Low Pressure CVD
8.1.3 Atmospheric Pressure CVD
8.1.4 Metal Organic CVD
8.2 Global Market Revenue & Share Analysis, 2018 – 2022
8.3 Global Market Revenue & Share Forecast Analysis, 2023 –
2032
8.4 Key Takeaways
9 SEMICONDUCTOR THIN
FILM DEPOSITION MARKET OVERVIEW, BY ATOMIC LAYER DEPOSITION
9.1 Global Market Revenue & Share Analysis, By Atomic Layer
Deposition
9.1.1 Catalytic ALD
9.1.2 Metal ALD
9.1.3 Plasma-enhanced ALD
9.2 Global Market Revenue & Share Analysis, 2018 – 2022
9.3 Global Market Revenue & Share Forecast Analysis, 2023 –
2032
9.4 Key Takeaways
10 SEMICONDUCTOR THIN FILM DEPOSITION
MARKET OVERVIEW, BY REGION
10.1 Global Market Revenue & Share Analysis, By Region
10.1.1 North America
10.1.2 Europe
10.1.3 Asia Pacific
10.1.4 Middle East & Africa
10.1.5 South America
10.2 Global Market Revenue & Share Analysis, 2018 – 2022
10.3 Global Market Revenue & Share Forecast Analysis, 2023 –
2032
10.4 Key Takeaways
11 NORTH AMERICA MARKET
ANALYSIS
11.1 North America Market Revenue & Share Analysis, By Physical
Vapor Deposition
11.2 North America Market Revenue & Share Analysis, By
Application
11.3 North America Market Revenue & Share Analysis, By Chemical
Vapor Deposition
11.4 North America Market Revenue & Share Analysis, By Atomic
Layer Deposition
11.5 North America Market Revenue & Share Analysis, By Country
11.5.1 US
11.5.2 Canada
11.5.3 Mexico
11.6 Key Takeaways
12 EUROPE MARKET ANALYSIS
12.1 Europe Market Revenue & Share Analysis, By Physical Vapor
Deposition
12.2 Europe Market Revenue & Share Analysis, By Application
12.3 Europe Market Revenue & Share Analysis, By Chemical Vapor
Deposition
12.4 Europe Market Revenue & Share Analysis, By Atomic Layer
Deposition
12.5 Europe Market Revenue & Share Analysis, By Country
12.5.1 UK
12.5.2 Italy
12.5.3 Spain
12.5.4 Germany
12.5.5 France
12.5.6 Rest of Europe
12.6 Key Takeaways
13 ASIA PACIFIC MARKET ANALYSIS
13.1 APAC Market Revenue & Share Analysis, By Physical Vapor
Deposition
13.2 APAC Market Revenue & Share Analysis, By Application
13.3 APAC Market Revenue & Share Analysis, By Chemical Vapor
Deposition
13.4 APAC Market Revenue & Share Analysis, By Atomic Layer
Deposition
13.5 APAC Market Revenue & Share Analysis, By Country
13.5.1 China
13.5.2 Japan
13.5.3 India
13.5.4 South Korea
13.5.5 Rest of APAC
13.6 Key Takeaways
14 MIDDLE EAST & AFRICA MARKET
ANALYSIS
14.1 MEA Market Revenue & Share Analysis, By Physical Vapor
Deposition
14.2 MEA Market Revenue & Share Analysis, By Application
14.3 MEA Market Revenue & Share Analysis, By Chemical Vapor
Deposition
14.4 MEA Market Revenue & Share Analysis, By Atomic Layer
Deposition
14.5 MEA Market Revenue & Share Analysis, By Country
14.5.1 GCC
14.5.2 South Africa
14.5.3 Rest of MEA
14.6 Key Takeaways
15 SOUTH AMERICA MARKET ANALYSIS
15.1 SA Market Revenue & Share Analysis, By Physical Vapor
Deposition
15.2 SA Market Revenue & Share Analysis, By Application
15.3 SA Market Revenue & Share Analysis, By Chemical Vapor
Deposition
15.4 SA Market Revenue & Share Analysis, By Atomic Layer
Deposition
15.5 SA Market Revenue & Share Analysis, By Country
15.5.1 Brazil
15.5.2 Argentina
15.5.3 Rest of SA
15.6 Key Takeaways
16 COMPETITIVE SCENARIO
16.1 Overview
16.2 Key Players Market Share Analysis
16.3 Recent Developments & Atomic Layer Deposition Launches
16.4 Mergers & Acquisitions
16.5 Partnerships, Agreements & Collaborations
17 COMPANY PROFILES
17.1 Overview
17.2 Key players
17.2.1 AJA International, Inc. (US)
17.2.1.1 Business Overview
17.2.1.2 Atomic Layer Depositions Offered
17.2.1.3 Financial Insights
17.2.1.4 Strategic Developments
17.2.1.4.1 New Atomic Layer Deposition Launches
17.2.1.4.2 Agreements & Collaborations
17.2.1.5 Business Aspects (NOISE Analysis)
17.2.1.5.1 Key Strengths
17.2.1.5.2 Opportunities
17.2.1.5.3 Weaknesses & Competitive Threats
17.2.1.5.4 Needs & Improvements
17.2.2 AJA International, Inc. (US)
17.2.3 Blue Wave Semiconductors Inc. (US)
17.2.4 Canon ANELVA Corporation (Japan)
17.2.5 CVD Equipment Corporation (US)
17.2.6 Intevac Inc. (US)
17.2.7 Kenosistec Sr (Italy)
17.2.8 Lam Research Corporation (US)
17.2.9 Plasma-Therm LLC (US)
17.2.10 Plassys Bestek (France)
17.2.11 PVD Products, Inc. (US)
18 DISCLAIMER
19 APPENDIX
