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Electronics & Semiconductor Global Coating Power for Semiconductor Market 2026 by Manufacturers, Regions, Type and Application, Forecast to 2032

  • RnM4664898
    • |
  • 19 January, 2026
    • |
  • Global
    • |
  • 86 Pages
    • |
  • GIR
    • |
  • Electronics & Semiconductor

According to our (Global Info Research) latest study, the global Coating Power for Semiconductor market size was valued at US$ 50.42 million in 2025 and is forecast to a readjusted size of US$ 82.50 million by 2032 with a CAGR of 7.7% during review period.
In this report, Coating Powder for Semiconductor focuses on high-purity ceramic thermal-spray powders used for semiconductor equipment parts, mainly Y₂O₃ (yttria), YF₃, YOF, Y–Al–O phase systems (e.g., YAG, and in practice also YAP/YAM-type phase control), plus selected Al₂O₃ powders. Commercial supplier disclosures show these chemistries are offered as thermal-spray powder lineups for semiconductor-related uses, while the “powder” itself is typically engineered as granulated / spherical feedstock with controlled particle size windows for stable feeding and reproducible coating microstructures (e.g., Shin-Etsu Rare Earth lists thermal-spray powders including Y₂O₃/YF₃/YOF/YAG/Al₂O₃; Mitsui Kinzoku’s Rare Material Division describes spherical granulated powders ~30–60 μm suitable for thermal spraying; publications cite spray powders such as 25–50 μm, 99.99% for Shin-Etsu YOF/YF₃).
Demand is concentrated in plasma-exposed hardware for etch and deposition tools—chamber liners/walls, shields, focus rings, showerheads, and related internals—where coatings are adopted to extend part lifetime and reduce particle generation/contamination, stabilizing tool uptime and yield. Supplier materials explicitly state yttria thermal-spray coatings are used in semiconductor and LCD fabrication equipment and emphasize ≥99.99% purity to prevent contamination, together with anti-plasma erosion resistance. Peer-reviewed studies further align with fab pain points by directly measuring plasma etching/erosion behavior and contamination particle generation from yttrium-based coatings under halogen plasmas (e.g., NF₃), reinforcing why powder purity and coating integrity are treated as process-critical consumables rather than generic ceramics.
From an industrial process perspective, the dominant route is Atmospheric Plasma Spraying (APS) for yttria / yttrium-fluoride / yttrium-oxyfluoride coatings on chamber parts, with ongoing evaluation of process variants to improve density and reduce defect-driven particle shedding. Multiple open publications explicitly fabricate Y₂O₃/YOF/YF₃ coatings by APS (including studies that specify spray guns and powder specifications) and compare coating behaviors in halogen plasmas, while recent work also benchmarks plasma resistance across APS and other spraying approaches. Upstream, powder makers emphasize “semiconductor-grade” capabilities such as high purification, particle-size/composition control, and granulation, and suppliers describe granulated thermal-spray powders (e.g., Shin-Etsu granulated powders ~8–50 μm / ~16–50 μm; Mitsui highlights high purification + granulation; Fujimi notes strict QC and also supplies agglomerated-and-sintered high-purity Y₂O₃ spray powder).
The market is being pulled by two structural forces: (i) stronger and more frequent halogen plasma exposure (F/Cl chemistries, higher power, longer uptime targets) that increases erosion/corrosion stress on chamber surfaces, and (ii) tightening contamination budgets that amplify the value of higher-purity powders and more stable, denser coatings. A clear technical trend is chemistry migration from “yttria-only” toward YOF/YF₃ and engineered yttrium-based systems for fluorine-rich regimes, supported by comparative studies reporting excellent etching resistance of YOF in fluorocarbon plasma and strong performance in chlorine-based plasmas for chamber protection. The supply chain can be summarized as rare-earth (yttrium) refining + alumina raw materials → high-purity oxide/fluoride/oxyfluoride synthesis → spray-powder conditioning (granulation/sphericity, classification, QC) → coating service / coated-part manufacturing → equipment OEMs and semiconductor fabs, with leading Japanese suppliers explicitly describing thermal-spray powder lineups and core powder technologies (high purification, granulation, size/composition control).
This report is a detailed and comprehensive analysis for global Coating Power for Semiconductor market. Both quantitative and qualitative analyses are presented by manufacturers, by region & country, by Material Type and by Application. As the market is constantly changing, this report explores the competition, supply and demand trends, as well as key factors that contribute to its changing demands across many markets. Company profiles and product examples of selected competitors, along with market share estimates of some of the selected leaders for the year 2025, are provided.
Key Features:
Global Coating Power for Semiconductor market size and forecasts, in consumption value ($ Million), sales quantity (Kg), and average selling prices (US$/Kg), 2021-2032
Global Coating Power for Semiconductor market size and forecasts by region and country, in consumption value ($ Million), sales quantity (Kg), and average selling prices (US$/Kg), 2021-2032
Global Coating Power for Semiconductor market size and forecasts, by Material Type and by Application, in consumption value ($ Million), sales quantity (Kg), and average selling prices (US$/Kg), 2021-2032
Global Coating Power for Semiconductor market shares of main players, shipments in revenue ($ Million), sales quantity (Kg), and ASP (US$/Kg), 2021-2026
The Primary Objectives in This Report Are:
To determine the size of the total market opportunity of global and key countries
To assess the growth potential for Coating Power for Semiconductor
To forecast future growth in each product and end-use market
To assess competitive factors affecting the marketplace
This report profiles key players in the global Coating Power for Semiconductor market based on the following parameters - company overview, sales quantity, revenue, price, gross margin, product portfolio, geographical presence, and key developments. Key companies covered as a part of this study include Shin-Etsu Rare Earth, Fujimi incorporated, Nippon Yttrium Company (NYC), MiCo, Entegris, SEWON HARDFACING, Saint-Gobain, Harbin Peize Materials Technology Co,Ltd, etc.
This report also provides key insights about market drivers, restraints, opportunities, new product launches or approvals.
Market Segmentation
Coating Power for Semiconductor market is split by Material Type and by Application. For the period 2021-2032, the growth among segments provides accurate calculations and forecasts for consumption value by Material Type, and by Application in terms of volume and value. This analysis can help you expand your business by targeting qualified niche markets.
Market segment by Material Type
Yttrium Oxide (Y2O3) Coating Power
Yttrium Fluoride (YF3) Coating Power
Yttrium oxyfluoride (YOF) Coating Power
Yttrium Aluminum Garnet (YAG) Coating Power
YAP and YAM Coating Power
Al2O3 Coating Power
Others
Market segment by Equipment Type
Etching Tools
Thin Film Equipment
Diffusion Equipment
Others
Market segment by Process Node
High End/Advanced <14nm
Mid End 18/22/28-90nm
Low End >110nm
Market segment by Application
APS (Atmosphere Plasma Spray)
SPS (Suspension Plasma Spray)
PVD and AD Coating
Major players covered
Shin-Etsu Rare Earth
Fujimi incorporated
Nippon Yttrium Company (NYC)
MiCo
Entegris
SEWON HARDFACING
Saint-Gobain
Harbin Peize Materials Technology Co,Ltd
Market segment by region, regional analysis covers
North America (United States, Canada, and Mexico)
Europe (Germany, France, United Kingdom, Russia, Italy, and Rest of Europe)
Asia-Pacific (China, Japan, Korea, India, Southeast Asia, and Australia)
South America (Brazil, Argentina, Colombia, and Rest of South America)
Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa, and Rest of Middle East & Africa)
The content of the study subjects, includes a total of 15 chapters:
Chapter 1, to describe Coating Power for Semiconductor product scope, market overview, market estimation caveats and base year.
Chapter 2, to profile the top manufacturers of Coating Power for Semiconductor, with price, sales quantity, revenue, and global market share of Coating Power for Semiconductor from 2021 to 2026.
Chapter 3, the Coating Power for Semiconductor competitive situation, sales quantity, revenue, and global market share of top manufacturers are analyzed emphatically by landscape contrast.
Chapter 4, the Coating Power for Semiconductor breakdown data are shown at the regional level, to show the sales quantity, consumption value, and growth by regions, from 2021 to 2032.
Chapter 5 and 6, to segment the sales by Material Type and by Application, with sales market share and growth rate by Material Type, by Application, from 2021 to 2032.
Chapter 7, 8, 9, 10 and 11, to break the sales data at the country level, with sales quantity, consumption value, and market share for key countries in the world, from 2021 to 2026.and Coating Power for Semiconductor market forecast, by regions, by Material Type, and by Application, with sales and revenue, from 2027 to 2032.
Chapter 12, market dynamics, drivers, restraints, trends, and Porters Five Forces analysis.
Chapter 13, the key raw materials and key suppliers, and industry chain of Coating Power for Semiconductor.
Chapter 14 and 15, to describe Coating Power for Semiconductor sales channel, distributors, customers, research findings and conclusion.


1 Market Overview

  • 1.1 Product Overview and Scope
  • 1.2 Market Estimation Caveats and Base Year
  • 1.3 Market Analysis by Material Type
    • 1.3.1 Overview: Global Coating Power for Semiconductor Consumption Value by Material Type: 2021 Versus 2025 Versus 2032
    • 1.3.2 Yttrium Oxide (Y2O3) Coating Power
    • 1.3.3 Yttrium Fluoride (YF3) Coating Power
    • 1.3.4 Yttrium oxyfluoride (YOF) Coating Power
    • 1.3.5 Yttrium Aluminum Garnet (YAG) Coating Power
    • 1.3.6 YAP and YAM Coating Power
    • 1.3.7 Al2O3 Coating Power
    • 1.3.8 Others
  • 1.4 Market Analysis by Equipment Type
    • 1.4.1 Overview: Global Coating Power for Semiconductor Consumption Value by Equipment Type: 2021 Versus 2025 Versus 2032
    • 1.4.2 Etching Tools
    • 1.4.3 Thin Film Equipment
    • 1.4.4 Diffusion Equipment
    • 1.4.5 Others
  • 1.5 Market Analysis by Process Node
    • 1.5.1 Overview: Global Coating Power for Semiconductor Consumption Value by Process Node: 2021 Versus 2025 Versus 2032
    • 1.5.2 High End/Advanced <14nm
    • 1.5.3 Mid End 18/22/28-90nm
    • 1.5.4 Low End >110nm
  • 1.6 Market Analysis by Application
    • 1.6.1 Overview: Global Coating Power for Semiconductor Consumption Value by Application: 2021 Versus 2025 Versus 2032
    • 1.6.2 APS (Atmosphere Plasma Spray)
    • 1.6.3 SPS (Suspension Plasma Spray)
    • 1.6.4 PVD and AD Coating
  • 1.7 Global Coating Power for Semiconductor Market Size & Forecast
    • 1.7.1 Global Coating Power for Semiconductor Consumption Value (2021 & 2025 & 2032)
    • 1.7.2 Global Coating Power for Semiconductor Sales Quantity (2021-2032)
    • 1.7.3 Global Coating Power for Semiconductor Average Price (2021-2032)

2 Manufacturers Profiles

  • 2.1 Shin-Etsu Rare Earth
    • 2.1.1 Shin-Etsu Rare Earth Details
    • 2.1.2 Shin-Etsu Rare Earth Major Business
    • 2.1.3 Shin-Etsu Rare Earth Coating Power for Semiconductor Product and Services
    • 2.1.4 Shin-Etsu Rare Earth Coating Power for Semiconductor Sales Quantity, Average Price, Revenue, Gross Margin and Market Share (2021-2026)
    • 2.1.5 Shin-Etsu Rare Earth Recent Developments/Updates
  • 2.2 Fujimi incorporated
    • 2.2.1 Fujimi incorporated Details
    • 2.2.2 Fujimi incorporated Major Business
    • 2.2.3 Fujimi incorporated Coating Power for Semiconductor Product and Services
    • 2.2.4 Fujimi incorporated Coating Power for Semiconductor Sales Quantity, Average Price, Revenue, Gross Margin and Market Share (2021-2026)
    • 2.2.5 Fujimi incorporated Recent Developments/Updates
  • 2.3 Nippon Yttrium Company (NYC)
    • 2.3.1 Nippon Yttrium Company (NYC) Details
    • 2.3.2 Nippon Yttrium Company (NYC) Major Business
    • 2.3.3 Nippon Yttrium Company (NYC) Coating Power for Semiconductor Product and Services
    • 2.3.4 Nippon Yttrium Company (NYC) Coating Power for Semiconductor Sales Quantity, Average Price, Revenue, Gross Margin and Market Share (2021-2026)
    • 2.3.5 Nippon Yttrium Company (NYC) Recent Developments/Updates
  • 2.4 MiCo
    • 2.4.1 MiCo Details
    • 2.4.2 MiCo Major Business
    • 2.4.3 MiCo Coating Power for Semiconductor Product and Services
    • 2.4.4 MiCo Coating Power for Semiconductor Sales Quantity, Average Price, Revenue, Gross Margin and Market Share (2021-2026)
    • 2.4.5 MiCo Recent Developments/Updates
  • 2.5 Entegris
    • 2.5.1 Entegris Details
    • 2.5.2 Entegris Major Business
    • 2.5.3 Entegris Coating Power for Semiconductor Product and Services
    • 2.5.4 Entegris Coating Power for Semiconductor Sales Quantity, Average Price, Revenue, Gross Margin and Market Share (2021-2026)
    • 2.5.5 Entegris Recent Developments/Updates
  • 2.6 SEWON HARDFACING
    • 2.6.1 SEWON HARDFACING Details
    • 2.6.2 SEWON HARDFACING Major Business
    • 2.6.3 SEWON HARDFACING Coating Power for Semiconductor Product and Services
    • 2.6.4 SEWON HARDFACING Coating Power for Semiconductor Sales Quantity, Average Price, Revenue, Gross Margin and Market Share (2021-2026)
    • 2.6.5 SEWON HARDFACING Recent Developments/Updates
  • 2.7 Saint-Gobain
    • 2.7.1 Saint-Gobain Details
    • 2.7.2 Saint-Gobain Major Business
    • 2.7.3 Saint-Gobain Coating Power for Semiconductor Product and Services
    • 2.7.4 Saint-Gobain Coating Power for Semiconductor Sales Quantity, Average Price, Revenue, Gross Margin and Market Share (2021-2026)
    • 2.7.5 Saint-Gobain Recent Developments/Updates
  • 2.8 Harbin Peize Materials Technology Co,Ltd
    • 2.8.1 Harbin Peize Materials Technology Co,Ltd Details
    • 2.8.2 Harbin Peize Materials Technology Co,Ltd Major Business
    • 2.8.3 Harbin Peize Materials Technology Co,Ltd Coating Power for Semiconductor Product and Services
    • 2.8.4 Harbin Peize Materials Technology Co,Ltd Coating Power for Semiconductor Sales Quantity, Average Price, Revenue, Gross Margin and Market Share (2021-2026)
    • 2.8.5 Harbin Peize Materials Technology Co,Ltd Recent Developments/Updates

3 Competitive Environment: Coating Power for Semiconductor by Manufacturer

  • 3.1 Global Coating Power for Semiconductor Sales Quantity by Manufacturer (2021-2026)
  • 3.2 Global Coating Power for Semiconductor Revenue by Manufacturer (2021-2026)
  • 3.3 Global Coating Power for Semiconductor Average Price by Manufacturer (2021-2026)
  • 3.4 Market Share Analysis (2025)
    • 3.4.1 Producer Shipments of Coating Power for Semiconductor by Manufacturer Revenue ($MM) and Market Share (%): 2025
    • 3.4.2 Top 3 Coating Power for Semiconductor Manufacturer Market Share in 2025
    • 3.4.3 Top 6 Coating Power for Semiconductor Manufacturer Market Share in 2025
  • 3.5 Coating Power for Semiconductor Market: Overall Company Footprint Analysis
    • 3.5.1 Coating Power for Semiconductor Market: Region Footprint
    • 3.5.2 Coating Power for Semiconductor Market: Company Product Type Footprint
    • 3.5.3 Coating Power for Semiconductor Market: Company Product Application Footprint
  • 3.6 New Market Entrants and Barriers to Market Entry
  • 3.7 Mergers, Acquisition, Agreements, and Collaborations

4 Consumption Analysis by Region

  • 4.1 Global Coating Power for Semiconductor Market Size by Region
    • 4.1.1 Global Coating Power for Semiconductor Sales Quantity by Region (2021-2032)
    • 4.1.2 Global Coating Power for Semiconductor Consumption Value by Region (2021-2032)
    • 4.1.3 Global Coating Power for Semiconductor Average Price by Region (2021-2032)
  • 4.2 North America Coating Power for Semiconductor Consumption Value (2021-2032)
  • 4.3 Europe Coating Power for Semiconductor Consumption Value (2021-2032)
  • 4.4 Asia-Pacific Coating Power for Semiconductor Consumption Value (2021-2032)
  • 4.5 South America Coating Power for Semiconductor Consumption Value (2021-2032)
  • 4.6 Middle East & Africa Coating Power for Semiconductor Consumption Value (2021-2032)

5 Market Segment by Material Type

  • 5.1 Global Coating Power for Semiconductor Sales Quantity by Material Type (2021-2032)
  • 5.2 Global Coating Power for Semiconductor Consumption Value by Material Type (2021-2032)
  • 5.3 Global Coating Power for Semiconductor Average Price by Material Type (2021-2032)

6 Market Segment by Application

  • 6.1 Global Coating Power for Semiconductor Sales Quantity by Application (2021-2032)
  • 6.2 Global Coating Power for Semiconductor Consumption Value by Application (2021-2032)
  • 6.3 Global Coating Power for Semiconductor Average Price by Application (2021-2032)

7 North America

  • 7.1 North America Coating Power for Semiconductor Sales Quantity by Material Type (2021-2032)
  • 7.2 North America Coating Power for Semiconductor Sales Quantity by Application (2021-2032)
  • 7.3 North America Coating Power for Semiconductor Market Size by Country
    • 7.3.1 North America Coating Power for Semiconductor Sales Quantity by Country (2021-2032)
    • 7.3.2 North America Coating Power for Semiconductor Consumption Value by Country (2021-2032)
    • 7.3.3 United States Market Size and Forecast (2021-2032)
    • 7.3.4 Canada Market Size and Forecast (2021-2032)
    • 7.3.5 Mexico Market Size and Forecast (2021-2032)

8 Europe

  • 8.1 Europe Coating Power for Semiconductor Sales Quantity by Material Type (2021-2032)
  • 8.2 Europe Coating Power for Semiconductor Sales Quantity by Application (2021-2032)
  • 8.3 Europe Coating Power for Semiconductor Market Size by Country
    • 8.3.1 Europe Coating Power for Semiconductor Sales Quantity by Country (2021-2032)
    • 8.3.2 Europe Coating Power for Semiconductor Consumption Value by Country (2021-2032)
    • 8.3.3 Germany Market Size and Forecast (2021-2032)
    • 8.3.4 France Market Size and Forecast (2021-2032)
    • 8.3.5 United Kingdom Market Size and Forecast (2021-2032)
    • 8.3.6 Russia Market Size and Forecast (2021-2032)
    • 8.3.7 Italy Market Size and Forecast (2021-2032)

9 Asia-Pacific

  • 9.1 Asia-Pacific Coating Power for Semiconductor Sales Quantity by Material Type (2021-2032)
  • 9.2 Asia-Pacific Coating Power for Semiconductor Sales Quantity by Application (2021-2032)
  • 9.3 Asia-Pacific Coating Power for Semiconductor Market Size by Region
    • 9.3.1 Asia-Pacific Coating Power for Semiconductor Sales Quantity by Region (2021-2032)
    • 9.3.2 Asia-Pacific Coating Power for Semiconductor Consumption Value by Region (2021-2032)
    • 9.3.3 China Market Size and Forecast (2021-2032)
    • 9.3.4 Japan Market Size and Forecast (2021-2032)
    • 9.3.5 South Korea Market Size and Forecast (2021-2032)
    • 9.3.6 India Market Size and Forecast (2021-2032)
    • 9.3.7 Southeast Asia Market Size and Forecast (2021-2032)
    • 9.3.8 Australia Market Size and Forecast (2021-2032)

10 South America

  • 10.1 South America Coating Power for Semiconductor Sales Quantity by Material Type (2021-2032)
  • 10.2 South America Coating Power for Semiconductor Sales Quantity by Application (2021-2032)
  • 10.3 South America Coating Power for Semiconductor Market Size by Country
    • 10.3.1 South America Coating Power for Semiconductor Sales Quantity by Country (2021-2032)
    • 10.3.2 South America Coating Power for Semiconductor Consumption Value by Country (2021-2032)
    • 10.3.3 Brazil Market Size and Forecast (2021-2032)
    • 10.3.4 Argentina Market Size and Forecast (2021-2032)

11 Middle East & Africa

  • 11.1 Middle East & Africa Coating Power for Semiconductor Sales Quantity by Material Type (2021-2032)
  • 11.2 Middle East & Africa Coating Power for Semiconductor Sales Quantity by Application (2021-2032)
  • 11.3 Middle East & Africa Coating Power for Semiconductor Market Size by Country
    • 11.3.1 Middle East & Africa Coating Power for Semiconductor Sales Quantity by Country (2021-2032)
    • 11.3.2 Middle East & Africa Coating Power for Semiconductor Consumption Value by Country (2021-2032)
    • 11.3.3 Turkey Market Size and Forecast (2021-2032)
    • 11.3.4 Egypt Market Size and Forecast (2021-2032)
    • 11.3.5 Saudi Arabia Market Size and Forecast (2021-2032)
    • 11.3.6 South Africa Market Size and Forecast (2021-2032)

12 Market Dynamics

  • 12.1 Coating Power for Semiconductor Market Drivers
  • 12.2 Coating Power for Semiconductor Market Restraints
  • 12.3 Coating Power for Semiconductor Trends Analysis
  • 12.4 Porters Five Forces Analysis
    • 12.4.1 Threat of New Entrants
    • 12.4.2 Bargaining Power of Suppliers
    • 12.4.3 Bargaining Power of Buyers
    • 12.4.4 Threat of Substitutes
    • 12.4.5 Competitive Rivalry

13 Raw Material and Industry Chain

  • 13.1 Raw Material of Coating Power for Semiconductor and Key Manufacturers
  • 13.2 Manufacturing Costs Percentage of Coating Power for Semiconductor
  • 13.3 Coating Power for Semiconductor Production Process
  • 13.4 Industry Value Chain Analysis

14 Shipments by Distribution Channel

  • 14.1 Sales Channel
    • 14.1.1 Direct to End-User
    • 14.1.2 Distributors
  • 14.2 Coating Power for Semiconductor Typical Distributors
  • 14.3 Coating Power for Semiconductor Typical Customers

15 Research Findings and Conclusion

    16 Appendix

    • 16.1 Methodology
    • 16.2 Research Process and Data Source

    Summary:
    Get latest Market Research Reports on Coating Power for Semiconductor. Industry analysis & Market Report on Coating Power for Semiconductor is a syndicated market report, published as Global Coating Power for Semiconductor Market 2026 by Manufacturers, Regions, Type and Application, Forecast to 2032. It is complete Research Study and Industry Analysis of Coating Power for Semiconductor market, to understand, Market Demand, Growth, trends analysis and Factor Influencing market.

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