Global Atomic Layer Deposition Market research

Atomic Layer Deposition Comprehensive Study by Type (Catalytic, Metal, Aluminum oxide, Plasma enhanced, Other), Application (Medical Devices, Optical Devices, Sensors, Solar Panels & Devices, Thermoelectric Materials, Integrated Circuit, Fuel Cells, Batteries), Category Type (Film type, Precursor type, Material type, Others), End User (Healthcare, Chemicals, Energy, Semiconductors & Electronics, Others) Players and Region - Global Market Outlook to 2028

Atomic Layer Deposition Market by XX Submarkets | Forecast Years 2023-2028  

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  • Summary
  • Market Segments
  • Table of Content
  • List of Table & Figures
  • Players Profiled
Global Atomic Layer Deposition Market Overview:
The Atomic Layer Deposition is a deposition technique that uses thin film that based on sequential use in gas phase process. The demand of atomic layer deposition solutions is rising that enabled the use of new materials and designing for advanced chips manufacturing. Further, increasing demand from the developing countries owing to growth in variety of electronic devices concerns owing to increasing application in manipulation and fabrication tools in nanotechnology. The Atomic layer deposition are mixed with various advancements in electronics mechanisms in order to increase their higher efficiency and stability of substrates that expected to drive the demand for atomic layer deposition unit over the forecasted period.

AttributesDetails
Study Period2018-2028
Base Year2022
Forecast Period2023-2028
Historical Period2018-2022
UnitValue (USD Million)
Customization ScopeAvail customization with purchase of this report. Add or modify country, region & or narrow down segments in the final scope subject to feasibility


Influencing Trend:
High Growth of Photovoltaic (PV) Cells as Energy Harvesting Concerns Rise

Market Growth Drivers:
Increasing Number Of PC/Home Console And Augmented AR Boost The Atomic Layer Deposition Market. and Technological Advancements Such As Nanotechnology Lead To Atomic Layer Deposition Market.

Challenges:
High Initial Cost Leads To Challenge The Atomic Layer Deposition Market and Substitute Available For Atomic Layer Deposition.

Restraints:
Slow Deposition Layer Leads To Hamper The Atomic Layer Deposition. and Lack Of Availability Of Skilled Labor For Atomic Layer Deposition.

Opportunities:
Rapid Expansion Of Atomic Layer Deposition In Consumer Electronics Market. and Availability Of Cheaper Labor And Government Subsidiaries Propelled The Market Growth

Competitive Landscape:

Some of the key players profiled in the report are ASM International (United States), Entegris (United States), Picosun (Finland), CVD Equipment Corporation (United States), Arradiance (United States), ALD Nanosolutions (United States), Applied Materials (United States), Beneq Oy (Finland), Veeco Instruments (United States) and Oxford Instruments (United Kingdom). Additionally, following companies can also be profiled that are part of our coverage like Kurt J. Lesker Company (United Kingdom), Tokyo Electron Ltd (Japan) and Ultratech (India). Analyst at AMA Research see United States Vendors to retain maximum share of Global Atomic Layer Deposition market by 2028. Considering Market by Category Type, the sub-segment i.e. Film type will boost the Atomic Layer Deposition market. Considering Market by End User, the sub-segment i.e. Healthcare will boost the Atomic Layer Deposition market.

Latest Market Insights:
In June 2018, Applied Materials Inc. announced a breakthrough in materials engineering, that accelerates the chip performance in Artificial Intelligence and Big Data. It combined the integrated materials solutions which combines dry clean, ALD, PVD, and CVD.

In July 2018, ASM international NV announced an expansion of its atomic layer deposition portfolio which is beneficial in providing Synergis 300 MM tool for advanced-node logic and memory high-volume production. It also enter into the ALD tools that addresses a wide range of thermal ALD applications.

What Can be Explored with the Atomic Layer Deposition Market Study
 Gain Market Understanding
 Identify Growth Opportunities
 Analyze and Measure the Global Atomic Layer Deposition Market by Identifying Investment across various Industry Verticals
 Understand the Trends that will drive Future Changes in Atomic Layer Deposition
 Understand the Competitive Scenario
- Track Right Markets
- Identify the Right Verticals

Research Methodology:
The top-down and bottom-up approaches are used to estimate and validate the size of the Global Atomic Layer Deposition market.
In order to reach an exhaustive list of functional and relevant players various industry classification standards are closely followed such as NAICS, ICB, SIC to penetrate deep in important geographies by players and a thorough validation test is conducted to reach most relevant players for survey in Atomic Layer Deposition market.
In order to make priority list sorting is done based on revenue generated based on latest reporting with the help of paid databases such as Factiva, Bloomberg etc.
Finally the questionnaire is set and specifically designed to address all the necessities for primary data collection after getting prior appointment by targeting key target audience that includes Atomic layer Deposition Manufacturers, Atomic layer Deposition Traders, End-Use Market Participants of Different Segments of Atomic layer Deposition, Government and Research Organizations, R&D Institutions and Others.
This helps us to gather the data related to players revenue, operating cycle and expense, profit along with product or service growth etc.
Almost 70-80% of data is collected through primary medium and further validation is done through various secondary sources that includes Regulators, World Bank, Association, Company Website, SEC filings, OTC BB, USPTO, EPO, Annual reports, press releases etc.

Report Objectives / Segmentation Covered

By Type
  • Catalytic
  • Metal
  • Aluminum oxide
  • Plasma enhanced
  • Other
By Application
  • Medical Devices
  • Optical Devices
  • Sensors
  • Solar Panels & Devices
  • Thermoelectric Materials
  • Integrated Circuit
  • Fuel Cells
  • Batteries
By Category Type
  • Film type
  • Precursor type
  • Material type
  • Others

By End User
  • Healthcare
  • Chemicals
  • Energy
  • Semiconductors & Electronics
  • Others

By Regions
  • South America
    • Brazil
    • Argentina
    • Rest of South America
  • Asia Pacific
    • China
    • Japan
    • India
    • South Korea
    • Taiwan
    • Australia
    • Rest of Asia-Pacific
  • Europe
    • Germany
    • France
    • Italy
    • United Kingdom
    • Netherlands
    • Rest of Europe
  • MEA
    • Middle East
    • Africa
  • North America
    • United States
    • Canada
    • Mexico
  • 1. Market Overview
    • 1.1. Introduction
    • 1.2. Scope/Objective of the Study
      • 1.2.1. Research Objective
  • 2. Executive Summary
    • 2.1. Introduction
  • 3. Market Dynamics
    • 3.1. Introduction
    • 3.2. Market Drivers
      • 3.2.1. Increasing Number Of PC/Home Console And Augmented AR Boost The Atomic Layer Deposition Market.
      • 3.2.2. Technological Advancements Such As Nanotechnology Lead To Atomic Layer Deposition Market.
    • 3.3. Market Challenges
      • 3.3.1. High Initial Cost Leads To Challenge The Atomic Layer Deposition Market
      • 3.3.2. Substitute Available For Atomic Layer Deposition.
    • 3.4. Market Trends
      • 3.4.1. High Growth of Photovoltaic (PV) Cells as Energy Harvesting Concerns Rise
  • 4. Market Factor Analysis
    • 4.1. Porters Five Forces
    • 4.2. Supply/Value Chain
    • 4.3. PESTEL analysis
    • 4.4. Market Entropy
    • 4.5. Patent/Trademark Analysis
  • 5. Global Atomic Layer Deposition, by Type, Application, Category Type, End User and Region (value and price ) (2017-2022)
    • 5.1. Introduction
    • 5.2. Global Atomic Layer Deposition (Value)
      • 5.2.1. Global Atomic Layer Deposition by: Type (Value)
        • 5.2.1.1. Catalytic
        • 5.2.1.2. Metal
        • 5.2.1.3. Aluminum oxide
        • 5.2.1.4. Plasma enhanced
        • 5.2.1.5. Other
      • 5.2.2. Global Atomic Layer Deposition by: Application (Value)
        • 5.2.2.1. Medical Devices
        • 5.2.2.2. Optical Devices
        • 5.2.2.3. Sensors
        • 5.2.2.4. Solar Panels & Devices
        • 5.2.2.5. Thermoelectric Materials
        • 5.2.2.6. Integrated Circuit
        • 5.2.2.7. Fuel Cells
        • 5.2.2.8. Batteries
      • 5.2.3. Global Atomic Layer Deposition by: Category Type (Value)
        • 5.2.3.1. Film type
        • 5.2.3.2. Precursor type
        • 5.2.3.3. Material type
        • 5.2.3.4. Others
      • 5.2.4. Global Atomic Layer Deposition by: End User (Value)
        • 5.2.4.1. Healthcare
        • 5.2.4.2. Chemicals
        • 5.2.4.3. Energy
        • 5.2.4.4. Semiconductors & Electronics
        • 5.2.4.5. Others
      • 5.2.5. Global Atomic Layer Deposition Region
        • 5.2.5.1. South America
          • 5.2.5.1.1. Brazil
          • 5.2.5.1.2. Argentina
          • 5.2.5.1.3. Rest of South America
        • 5.2.5.2. Asia Pacific
          • 5.2.5.2.1. China
          • 5.2.5.2.2. Japan
          • 5.2.5.2.3. India
          • 5.2.5.2.4. South Korea
          • 5.2.5.2.5. Taiwan
          • 5.2.5.2.6. Australia
          • 5.2.5.2.7. Rest of Asia-Pacific
        • 5.2.5.3. Europe
          • 5.2.5.3.1. Germany
          • 5.2.5.3.2. France
          • 5.2.5.3.3. Italy
          • 5.2.5.3.4. United Kingdom
          • 5.2.5.3.5. Netherlands
          • 5.2.5.3.6. Rest of Europe
        • 5.2.5.4. MEA
          • 5.2.5.4.1. Middle East
          • 5.2.5.4.2. Africa
        • 5.2.5.5. North America
          • 5.2.5.5.1. United States
          • 5.2.5.5.2. Canada
          • 5.2.5.5.3. Mexico
    • 5.3. Global Atomic Layer Deposition (Price)
      • 5.3.1. Global Atomic Layer Deposition by: Type (Price)
  • 6. Atomic Layer Deposition: Manufacturers/Players Analysis
    • 6.1. Competitive Landscape
      • 6.1.1. Market Share Analysis
        • 6.1.1.1. Top 3
        • 6.1.1.2. Top 5
    • 6.2. Peer Group Analysis (2022)
    • 6.3. BCG Matrix
    • 6.4. Company Profile
      • 6.4.1. ASM International (United States)
        • 6.4.1.1. Business Overview
        • 6.4.1.2. Products/Services Offerings
        • 6.4.1.3. Financial Analysis
        • 6.4.1.4. SWOT Analysis
      • 6.4.2. Entegris (United States)
        • 6.4.2.1. Business Overview
        • 6.4.2.2. Products/Services Offerings
        • 6.4.2.3. Financial Analysis
        • 6.4.2.4. SWOT Analysis
      • 6.4.3. Picosun (Finland)
        • 6.4.3.1. Business Overview
        • 6.4.3.2. Products/Services Offerings
        • 6.4.3.3. Financial Analysis
        • 6.4.3.4. SWOT Analysis
      • 6.4.4. CVD Equipment Corporation (United States)
        • 6.4.4.1. Business Overview
        • 6.4.4.2. Products/Services Offerings
        • 6.4.4.3. Financial Analysis
        • 6.4.4.4. SWOT Analysis
      • 6.4.5. Arradiance (United States)
        • 6.4.5.1. Business Overview
        • 6.4.5.2. Products/Services Offerings
        • 6.4.5.3. Financial Analysis
        • 6.4.5.4. SWOT Analysis
      • 6.4.6. ALD Nanosolutions (United States)
        • 6.4.6.1. Business Overview
        • 6.4.6.2. Products/Services Offerings
        • 6.4.6.3. Financial Analysis
        • 6.4.6.4. SWOT Analysis
      • 6.4.7. Applied Materials (United States)
        • 6.4.7.1. Business Overview
        • 6.4.7.2. Products/Services Offerings
        • 6.4.7.3. Financial Analysis
        • 6.4.7.4. SWOT Analysis
      • 6.4.8. Beneq Oy (Finland)
        • 6.4.8.1. Business Overview
        • 6.4.8.2. Products/Services Offerings
        • 6.4.8.3. Financial Analysis
        • 6.4.8.4. SWOT Analysis
      • 6.4.9. Veeco Instruments (United States)
        • 6.4.9.1. Business Overview
        • 6.4.9.2. Products/Services Offerings
        • 6.4.9.3. Financial Analysis
        • 6.4.9.4. SWOT Analysis
      • 6.4.10. Oxford Instruments (United Kingdom)
        • 6.4.10.1. Business Overview
        • 6.4.10.2. Products/Services Offerings
        • 6.4.10.3. Financial Analysis
        • 6.4.10.4. SWOT Analysis
  • 7. Global Atomic Layer Deposition Sale, by Type, Application, Category Type, End User and Region (value and price ) (2023-2028)
    • 7.1. Introduction
    • 7.2. Global Atomic Layer Deposition (Value)
      • 7.2.1. Global Atomic Layer Deposition by: Type (Value)
        • 7.2.1.1. Catalytic
        • 7.2.1.2. Metal
        • 7.2.1.3. Aluminum oxide
        • 7.2.1.4. Plasma enhanced
        • 7.2.1.5. Other
      • 7.2.2. Global Atomic Layer Deposition by: Application (Value)
        • 7.2.2.1. Medical Devices
        • 7.2.2.2. Optical Devices
        • 7.2.2.3. Sensors
        • 7.2.2.4. Solar Panels & Devices
        • 7.2.2.5. Thermoelectric Materials
        • 7.2.2.6. Integrated Circuit
        • 7.2.2.7. Fuel Cells
        • 7.2.2.8. Batteries
      • 7.2.3. Global Atomic Layer Deposition by: Category Type (Value)
        • 7.2.3.1. Film type
        • 7.2.3.2. Precursor type
        • 7.2.3.3. Material type
        • 7.2.3.4. Others
      • 7.2.4. Global Atomic Layer Deposition by: End User (Value)
        • 7.2.4.1. Healthcare
        • 7.2.4.2. Chemicals
        • 7.2.4.3. Energy
        • 7.2.4.4. Semiconductors & Electronics
        • 7.2.4.5. Others
      • 7.2.5. Global Atomic Layer Deposition Region
        • 7.2.5.1. South America
          • 7.2.5.1.1. Brazil
          • 7.2.5.1.2. Argentina
          • 7.2.5.1.3. Rest of South America
        • 7.2.5.2. Asia Pacific
          • 7.2.5.2.1. China
          • 7.2.5.2.2. Japan
          • 7.2.5.2.3. India
          • 7.2.5.2.4. South Korea
          • 7.2.5.2.5. Taiwan
          • 7.2.5.2.6. Australia
          • 7.2.5.2.7. Rest of Asia-Pacific
        • 7.2.5.3. Europe
          • 7.2.5.3.1. Germany
          • 7.2.5.3.2. France
          • 7.2.5.3.3. Italy
          • 7.2.5.3.4. United Kingdom
          • 7.2.5.3.5. Netherlands
          • 7.2.5.3.6. Rest of Europe
        • 7.2.5.4. MEA
          • 7.2.5.4.1. Middle East
          • 7.2.5.4.2. Africa
        • 7.2.5.5. North America
          • 7.2.5.5.1. United States
          • 7.2.5.5.2. Canada
          • 7.2.5.5.3. Mexico
    • 7.3. Global Atomic Layer Deposition (Price)
      • 7.3.1. Global Atomic Layer Deposition by: Type (Price)
  • 8. Appendix
    • 8.1. Acronyms
  • 9. Methodology and Data Source
    • 9.1. Methodology/Research Approach
      • 9.1.1. Research Programs/Design
      • 9.1.2. Market Size Estimation
      • 9.1.3. Market Breakdown and Data Triangulation
    • 9.2. Data Source
      • 9.2.1. Secondary Sources
      • 9.2.2. Primary Sources
    • 9.3. Disclaimer
List of Tables
  • Table 1. Atomic Layer Deposition: by Type(USD Million)
  • Table 2. Atomic Layer Deposition Catalytic , by Region USD Million (2017-2022)
  • Table 3. Atomic Layer Deposition Metal , by Region USD Million (2017-2022)
  • Table 4. Atomic Layer Deposition Aluminum oxide , by Region USD Million (2017-2022)
  • Table 5. Atomic Layer Deposition Plasma enhanced , by Region USD Million (2017-2022)
  • Table 6. Atomic Layer Deposition Other , by Region USD Million (2017-2022)
  • Table 7. Atomic Layer Deposition: by Application(USD Million)
  • Table 8. Atomic Layer Deposition Medical Devices , by Region USD Million (2017-2022)
  • Table 9. Atomic Layer Deposition Optical Devices , by Region USD Million (2017-2022)
  • Table 10. Atomic Layer Deposition Sensors , by Region USD Million (2017-2022)
  • Table 11. Atomic Layer Deposition Solar Panels & Devices , by Region USD Million (2017-2022)
  • Table 12. Atomic Layer Deposition Thermoelectric Materials , by Region USD Million (2017-2022)
  • Table 13. Atomic Layer Deposition Integrated Circuit , by Region USD Million (2017-2022)
  • Table 14. Atomic Layer Deposition Fuel Cells , by Region USD Million (2017-2022)
  • Table 15. Atomic Layer Deposition Batteries , by Region USD Million (2017-2022)
  • Table 16. Atomic Layer Deposition: by Category Type(USD Million)
  • Table 17. Atomic Layer Deposition Film type , by Region USD Million (2017-2022)
  • Table 18. Atomic Layer Deposition Precursor type , by Region USD Million (2017-2022)
  • Table 19. Atomic Layer Deposition Material type , by Region USD Million (2017-2022)
  • Table 20. Atomic Layer Deposition Others , by Region USD Million (2017-2022)
  • Table 21. Atomic Layer Deposition: by End User(USD Million)
  • Table 22. Atomic Layer Deposition Healthcare , by Region USD Million (2017-2022)
  • Table 23. Atomic Layer Deposition Chemicals , by Region USD Million (2017-2022)
  • Table 24. Atomic Layer Deposition Energy , by Region USD Million (2017-2022)
  • Table 25. Atomic Layer Deposition Semiconductors & Electronics , by Region USD Million (2017-2022)
  • Table 26. Atomic Layer Deposition Others , by Region USD Million (2017-2022)
  • Table 27. South America Atomic Layer Deposition, by Country USD Million (2017-2022)
  • Table 28. South America Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 29. South America Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 30. South America Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 31. South America Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 32. Brazil Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 33. Brazil Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 34. Brazil Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 35. Brazil Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 36. Argentina Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 37. Argentina Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 38. Argentina Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 39. Argentina Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 40. Rest of South America Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 41. Rest of South America Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 42. Rest of South America Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 43. Rest of South America Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 44. Asia Pacific Atomic Layer Deposition, by Country USD Million (2017-2022)
  • Table 45. Asia Pacific Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 46. Asia Pacific Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 47. Asia Pacific Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 48. Asia Pacific Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 49. China Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 50. China Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 51. China Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 52. China Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 53. Japan Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 54. Japan Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 55. Japan Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 56. Japan Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 57. India Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 58. India Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 59. India Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 60. India Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 61. South Korea Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 62. South Korea Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 63. South Korea Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 64. South Korea Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 65. Taiwan Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 66. Taiwan Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 67. Taiwan Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 68. Taiwan Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 69. Australia Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 70. Australia Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 71. Australia Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 72. Australia Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 73. Rest of Asia-Pacific Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 74. Rest of Asia-Pacific Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 75. Rest of Asia-Pacific Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 76. Rest of Asia-Pacific Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 77. Europe Atomic Layer Deposition, by Country USD Million (2017-2022)
  • Table 78. Europe Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 79. Europe Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 80. Europe Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 81. Europe Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 82. Germany Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 83. Germany Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 84. Germany Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 85. Germany Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 86. France Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 87. France Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 88. France Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 89. France Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 90. Italy Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 91. Italy Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 92. Italy Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 93. Italy Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 94. United Kingdom Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 95. United Kingdom Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 96. United Kingdom Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 97. United Kingdom Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 98. Netherlands Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 99. Netherlands Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 100. Netherlands Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 101. Netherlands Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 102. Rest of Europe Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 103. Rest of Europe Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 104. Rest of Europe Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 105. Rest of Europe Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 106. MEA Atomic Layer Deposition, by Country USD Million (2017-2022)
  • Table 107. MEA Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 108. MEA Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 109. MEA Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 110. MEA Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 111. Middle East Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 112. Middle East Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 113. Middle East Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 114. Middle East Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 115. Africa Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 116. Africa Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 117. Africa Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 118. Africa Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 119. North America Atomic Layer Deposition, by Country USD Million (2017-2022)
  • Table 120. North America Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 121. North America Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 122. North America Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 123. North America Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 124. United States Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 125. United States Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 126. United States Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 127. United States Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 128. Canada Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 129. Canada Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 130. Canada Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 131. Canada Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 132. Mexico Atomic Layer Deposition, by Type USD Million (2017-2022)
  • Table 133. Mexico Atomic Layer Deposition, by Application USD Million (2017-2022)
  • Table 134. Mexico Atomic Layer Deposition, by Category Type USD Million (2017-2022)
  • Table 135. Mexico Atomic Layer Deposition, by End User USD Million (2017-2022)
  • Table 136. Atomic Layer Deposition: by Type(USD/Units)
  • Table 137. Company Basic Information, Sales Area and Its Competitors
  • Table 138. Company Basic Information, Sales Area and Its Competitors
  • Table 139. Company Basic Information, Sales Area and Its Competitors
  • Table 140. Company Basic Information, Sales Area and Its Competitors
  • Table 141. Company Basic Information, Sales Area and Its Competitors
  • Table 142. Company Basic Information, Sales Area and Its Competitors
  • Table 143. Company Basic Information, Sales Area and Its Competitors
  • Table 144. Company Basic Information, Sales Area and Its Competitors
  • Table 145. Company Basic Information, Sales Area and Its Competitors
  • Table 146. Company Basic Information, Sales Area and Its Competitors
  • Table 147. Atomic Layer Deposition: by Type(USD Million)
  • Table 148. Atomic Layer Deposition Catalytic , by Region USD Million (2023-2028)
  • Table 149. Atomic Layer Deposition Metal , by Region USD Million (2023-2028)
  • Table 150. Atomic Layer Deposition Aluminum oxide , by Region USD Million (2023-2028)
  • Table 151. Atomic Layer Deposition Plasma enhanced , by Region USD Million (2023-2028)
  • Table 152. Atomic Layer Deposition Other , by Region USD Million (2023-2028)
  • Table 153. Atomic Layer Deposition: by Application(USD Million)
  • Table 154. Atomic Layer Deposition Medical Devices , by Region USD Million (2023-2028)
  • Table 155. Atomic Layer Deposition Optical Devices , by Region USD Million (2023-2028)
  • Table 156. Atomic Layer Deposition Sensors , by Region USD Million (2023-2028)
  • Table 157. Atomic Layer Deposition Solar Panels & Devices , by Region USD Million (2023-2028)
  • Table 158. Atomic Layer Deposition Thermoelectric Materials , by Region USD Million (2023-2028)
  • Table 159. Atomic Layer Deposition Integrated Circuit , by Region USD Million (2023-2028)
  • Table 160. Atomic Layer Deposition Fuel Cells , by Region USD Million (2023-2028)
  • Table 161. Atomic Layer Deposition Batteries , by Region USD Million (2023-2028)
  • Table 162. Atomic Layer Deposition: by Category Type(USD Million)
  • Table 163. Atomic Layer Deposition Film type , by Region USD Million (2023-2028)
  • Table 164. Atomic Layer Deposition Precursor type , by Region USD Million (2023-2028)
  • Table 165. Atomic Layer Deposition Material type , by Region USD Million (2023-2028)
  • Table 166. Atomic Layer Deposition Others , by Region USD Million (2023-2028)
  • Table 167. Atomic Layer Deposition: by End User(USD Million)
  • Table 168. Atomic Layer Deposition Healthcare , by Region USD Million (2023-2028)
  • Table 169. Atomic Layer Deposition Chemicals , by Region USD Million (2023-2028)
  • Table 170. Atomic Layer Deposition Energy , by Region USD Million (2023-2028)
  • Table 171. Atomic Layer Deposition Semiconductors & Electronics , by Region USD Million (2023-2028)
  • Table 172. Atomic Layer Deposition Others , by Region USD Million (2023-2028)
  • Table 173. South America Atomic Layer Deposition, by Country USD Million (2023-2028)
  • Table 174. South America Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 175. South America Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 176. South America Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 177. South America Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 178. Brazil Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 179. Brazil Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 180. Brazil Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 181. Brazil Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 182. Argentina Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 183. Argentina Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 184. Argentina Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 185. Argentina Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 186. Rest of South America Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 187. Rest of South America Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 188. Rest of South America Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 189. Rest of South America Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 190. Asia Pacific Atomic Layer Deposition, by Country USD Million (2023-2028)
  • Table 191. Asia Pacific Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 192. Asia Pacific Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 193. Asia Pacific Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 194. Asia Pacific Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 195. China Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 196. China Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 197. China Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 198. China Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 199. Japan Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 200. Japan Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 201. Japan Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 202. Japan Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 203. India Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 204. India Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 205. India Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 206. India Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 207. South Korea Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 208. South Korea Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 209. South Korea Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 210. South Korea Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 211. Taiwan Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 212. Taiwan Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 213. Taiwan Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 214. Taiwan Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 215. Australia Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 216. Australia Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 217. Australia Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 218. Australia Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 219. Rest of Asia-Pacific Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 220. Rest of Asia-Pacific Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 221. Rest of Asia-Pacific Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 222. Rest of Asia-Pacific Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 223. Europe Atomic Layer Deposition, by Country USD Million (2023-2028)
  • Table 224. Europe Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 225. Europe Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 226. Europe Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 227. Europe Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 228. Germany Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 229. Germany Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 230. Germany Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 231. Germany Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 232. France Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 233. France Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 234. France Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 235. France Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 236. Italy Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 237. Italy Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 238. Italy Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 239. Italy Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 240. United Kingdom Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 241. United Kingdom Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 242. United Kingdom Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 243. United Kingdom Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 244. Netherlands Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 245. Netherlands Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 246. Netherlands Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 247. Netherlands Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 248. Rest of Europe Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 249. Rest of Europe Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 250. Rest of Europe Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 251. Rest of Europe Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 252. MEA Atomic Layer Deposition, by Country USD Million (2023-2028)
  • Table 253. MEA Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 254. MEA Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 255. MEA Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 256. MEA Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 257. Middle East Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 258. Middle East Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 259. Middle East Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 260. Middle East Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 261. Africa Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 262. Africa Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 263. Africa Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 264. Africa Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 265. North America Atomic Layer Deposition, by Country USD Million (2023-2028)
  • Table 266. North America Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 267. North America Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 268. North America Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 269. North America Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 270. United States Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 271. United States Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 272. United States Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 273. United States Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 274. Canada Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 275. Canada Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 276. Canada Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 277. Canada Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 278. Mexico Atomic Layer Deposition, by Type USD Million (2023-2028)
  • Table 279. Mexico Atomic Layer Deposition, by Application USD Million (2023-2028)
  • Table 280. Mexico Atomic Layer Deposition, by Category Type USD Million (2023-2028)
  • Table 281. Mexico Atomic Layer Deposition, by End User USD Million (2023-2028)
  • Table 282. Atomic Layer Deposition: by Type(USD/Units)
  • Table 283. Research Programs/Design for This Report
  • Table 284. Key Data Information from Secondary Sources
  • Table 285. Key Data Information from Primary Sources
List of Figures
  • Figure 1. Porters Five Forces
  • Figure 2. Supply/Value Chain
  • Figure 3. PESTEL analysis
  • Figure 4. Global Atomic Layer Deposition: by Type USD Million (2017-2022)
  • Figure 5. Global Atomic Layer Deposition: by Application USD Million (2017-2022)
  • Figure 6. Global Atomic Layer Deposition: by Category Type USD Million (2017-2022)
  • Figure 7. Global Atomic Layer Deposition: by End User USD Million (2017-2022)
  • Figure 8. South America Atomic Layer Deposition Share (%), by Country
  • Figure 9. Asia Pacific Atomic Layer Deposition Share (%), by Country
  • Figure 10. Europe Atomic Layer Deposition Share (%), by Country
  • Figure 11. MEA Atomic Layer Deposition Share (%), by Country
  • Figure 12. North America Atomic Layer Deposition Share (%), by Country
  • Figure 13. Global Atomic Layer Deposition: by Type USD/Units (2017-2022)
  • Figure 14. Global Atomic Layer Deposition share by Players 2022 (%)
  • Figure 15. Global Atomic Layer Deposition share by Players (Top 3) 2022(%)
  • Figure 16. Global Atomic Layer Deposition share by Players (Top 5) 2022(%)
  • Figure 17. BCG Matrix for key Companies
  • Figure 18. ASM International (United States) Revenue, Net Income and Gross profit
  • Figure 19. ASM International (United States) Revenue: by Geography 2022
  • Figure 20. Entegris (United States) Revenue, Net Income and Gross profit
  • Figure 21. Entegris (United States) Revenue: by Geography 2022
  • Figure 22. Picosun (Finland) Revenue, Net Income and Gross profit
  • Figure 23. Picosun (Finland) Revenue: by Geography 2022
  • Figure 24. CVD Equipment Corporation (United States) Revenue, Net Income and Gross profit
  • Figure 25. CVD Equipment Corporation (United States) Revenue: by Geography 2022
  • Figure 26. Arradiance (United States) Revenue, Net Income and Gross profit
  • Figure 27. Arradiance (United States) Revenue: by Geography 2022
  • Figure 28. ALD Nanosolutions (United States) Revenue, Net Income and Gross profit
  • Figure 29. ALD Nanosolutions (United States) Revenue: by Geography 2022
  • Figure 30. Applied Materials (United States) Revenue, Net Income and Gross profit
  • Figure 31. Applied Materials (United States) Revenue: by Geography 2022
  • Figure 32. Beneq Oy (Finland) Revenue, Net Income and Gross profit
  • Figure 33. Beneq Oy (Finland) Revenue: by Geography 2022
  • Figure 34. Veeco Instruments (United States) Revenue, Net Income and Gross profit
  • Figure 35. Veeco Instruments (United States) Revenue: by Geography 2022
  • Figure 36. Oxford Instruments (United Kingdom) Revenue, Net Income and Gross profit
  • Figure 37. Oxford Instruments (United Kingdom) Revenue: by Geography 2022
  • Figure 38. Global Atomic Layer Deposition: by Type USD Million (2023-2028)
  • Figure 39. Global Atomic Layer Deposition: by Application USD Million (2023-2028)
  • Figure 40. Global Atomic Layer Deposition: by Category Type USD Million (2023-2028)
  • Figure 41. Global Atomic Layer Deposition: by End User USD Million (2023-2028)
  • Figure 42. South America Atomic Layer Deposition Share (%), by Country
  • Figure 43. Asia Pacific Atomic Layer Deposition Share (%), by Country
  • Figure 44. Europe Atomic Layer Deposition Share (%), by Country
  • Figure 45. MEA Atomic Layer Deposition Share (%), by Country
  • Figure 46. North America Atomic Layer Deposition Share (%), by Country
  • Figure 47. Global Atomic Layer Deposition: by Type USD/Units (2023-2028)
List of companies from research coverage that are profiled in the study
  • ASM International (United States)
  • Entegris (United States)
  • Picosun (Finland)
  • CVD Equipment Corporation (United States)
  • Arradiance (United States)
  • ALD Nanosolutions (United States)
  • Applied Materials (United States)
  • Beneq Oy (Finland)
  • Veeco Instruments (United States)
  • Oxford Instruments (United Kingdom)
Additional players considered in the study are as follows:
Kurt J. Lesker Company (United Kingdom) , Tokyo Electron Ltd (Japan) , Ultratech (India)
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Key Highlights of Report


May 2023 235 Pages 89 Tables Base Year: 2022 Coverage: 15+ Companies; 18 Countries

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Global Atomic Layer Deposition Market research Quantitative research analysis
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Frequently Asked Questions (FAQ):

Top performing companies in the Global Atomic Layer Deposition market are ASM International (United States), Entegris (United States), Picosun (Finland), CVD Equipment Corporation (United States), Arradiance (United States), ALD Nanosolutions (United States), Applied Materials (United States), Beneq Oy (Finland), Veeco Instruments (United States) and Oxford Instruments (United Kingdom), to name a few.
"High Growth of Photovoltaic (PV) Cells as Energy Harvesting Concerns Rise" is seen as one of major influencing trends for Atomic Layer Deposition Market during projected period 2022-2028.
Catalytic segment in Global market to hold robust market share owing to "Increasing Number Of PC/Home Console And Augmented AR Boost The Atomic Layer Deposition Market. ".

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