Global EUV Photoresists Market 2025 – 2034

As per the EUV Photoresists Market analysis conducted by the BRI Team, the global EUV Photoresists Market is expected to record a CAGR of 18.1% from 2025 to 2034. In 2025, the market size is projected to reach a valuation of USD 1.6 Billion. By 2034, the valuation is anticipated to reach USD 6.2 Billion.

Overview

The current pace of EUV Photoresists Market development is strong with the growth of the demand for sophisticated and high-performance semiconductor chips in AI, 5G/6G, high-performance computing, and data centers. With consumers turning to energy-efficient smart kitchen gadgets and chipmakers turning to EUV lithography and high-precision resists in order to reach smaller nodes and improve wafer yield, consumers are now depending on the chipmakers to deliver smaller nodes and higher yields on their chips. Resist chemistry changes such as metal-oxide and inorganic, which are enhancing sensitivity, resolution and line-edge roughness, increasing the efficiency of the overall process.

Moreover, the high pace of the global foundry spread, modular fab development, and cross-border supply chains are transforming the production patterns. Eco-friendly chemistries, less material waste, and less energy consuming manufacturing processes are being considered as a priority which facilitates sustainable growth and the wide adoption of EUV photoresists in logic and memory as well as in specialty semiconductor uses globally.

Key Trends & Drivers

The EUV Photoresists Market Trends have tremendous growth opportunities due to several reasons:

• Improved Node Scaling: The need to move to sub-7nm and 5nm and even 3nm semiconductor nodes is also leading to the use of EUV lithography. EUV photoresists are required to attain ultra-fine patterning, increased wafer yields, and accurate line-edge control. The requirements of the high-performance resists that facilitate the elaborate design are on the rise as the semiconductor manufacturers strive to reduce the nodes.

• Increased AI, 5G and HPC Applications: AI chips, 5G devices and high-performance computing solutions continue to grow making wafer production and wafer starts at leading-edge fabs a growing concern. EUV photoresists are mandatory to facilitate high-density, high-speed circuits to satisfy the performance demands of the next-generation devices. The reason is that the market is growing very fast because of the rapid use of such applications.

• Resist Chemistry Technologies: Metal-oxide, inorganic and low-defect resists have been developed that enhance sensitivity, etch resistance and line-edge roughness. The technological advances enable enhanced yield, higher throughput and compatibility with state of the art lithography equipment. This innovation promotes the usage in logic, memory and DRAM fabs as well as minimizes production flaws and enhances the performance of semiconductors in general.

Key Threats

The EUV Photoresists Market has several primary threats that will influence its profitability and future development. Some of the threats are:

• Low Availability of EUV Resists: EUV photoresists are very costly because their manufacture involves complicated chemical synthesis processes, cleanroom production criteria, and stringent quality assurance. The high prices discourage the use, particularly for smaller fabs or lower volume producing companies. This cost advantage can retard the market growth and competitiveness of some market applications with other methods of lithography.

• Supply-Chain Complexity: EUV photoresist production depends on special chemicals supplied by few suppliers in Asia, Europe, and the U.S. and any interruption of the supply will delay deliveries, increase costs, and affect fab schedules. These supply chain vulnerabilities limit the growth of the market and also compel the manufacturers to either resort to dual-sourcing or hold up larger inventories.

Opportunities

• The New Semiconductor Markets in Asia-Pacific: Development of semiconductor production in China, Taiwan, South Korea, and India presents great prospects in providing resistance to the regional market as well as local production. The increase in fabs in these areas by foundries increases the demand on the EUV photoresists which in turn allows the suppliers to increase their operations and gain a market share in the developing Asia.

• Environmental-Sustainable and Eco-Friendly Resists: Resists that are environmentally friendly and minimize chemical waste and energy usage are in growing demand. Low impact-green photoresist development offers a market opportunity as semiconductor firms are implementing sustainable manufacturing methods to meet environmental rules as well as lower costs.

• Combination with Additional Lithography Tools: Cooperating with EUV scanner vendors and fab tool manufacturers in order to maximize resist performance is a growth opportunity. Specialized resists to individual tools enhance yield, throughput and pattern fidelity. This integration stimulates fabs to use the latest resist solutions, which enhance closer relations and drive higher demand in the market in the long run.

Category Wise Insights

By Type

• Chemically Amplified Resists (CARs): CARs are the most popular EUV photoresist that has high sensitivity and resolution of a sub-7nm node. On exposure, they enhance the chemical reaction enabling the patterning of the chemical reaction accurately using lower doses of EUV light. They are a part of high-end semiconductor production as they are widely used in logic and memory fabs.

• Metal-Oxide Resists (MORs): MORs are a new generation of photoresist that uses metal-oxide compounds, which offer better etch resistance, higher resolution and better line-edge roughness than traditional resists. They are used in high-density patterning needed in the latest logic and memory products and are being used to improve yield and throughput in the next generation EUV lithography processes.

• Inorganic/Hybrid Resists: Inorganic resists contain an organic and inorganic combination which results in ultra-fine patterning, reduced line-edge roughness and improved thermal stability. They can be used especially on aggressive scaling at a depth of less than 5 nm and in areas where durability and precision are needed. These resists facilitate advanced nodes but enhance the process control and defect mitigation.

• Other Specialty Resists: This is a category of specialty or experimental photoresists that are tailored to a particular lithography application, e.g. fine-resolution prototype manufacture, research or specialty device manufacturing. Specialized fabric demands and early-technology adoption are often focused on specific material properties, better sensitivity, or compatibility with new tools.

By Application

• Logic Chips: Logic chips encompass processors, microcontrollers, and AI/ML accelerators, and system-on-chip (SoC) systems. These chips have dense circuits that require the use of photoresists which are necessary to pattern the circuits with high precision and accuracy. The need to have faster, smaller, and more energy efficient logic chips is a direct result that causes high-performance resistors to be adopted in advanced semiconductor fabs.

• Memory Chips: DRAM, SRAM, NAND, and 3D NAND types of memory chips must be carefully patterned to have high density storage and data access speed. EUV photoresists allow these memory devices to be scaled effectively whilst preserving the performance and reliability thus becoming essential in next-generation memory manufacture.

• Foundry and Fab Services: The fabless companies have their chips fabricated through EUV lithography, done by foundries and contract manufacturers. They use quality resists to guarantee yield, throughput and defects. The increased outsourcing of chip manufacturing activities in the global market has increased the demand of EUV photoresists in the foundry activities.

• Specialty/Other Applications: This division includes special applications that are not part of standard logic and memory such as photonics, sensors and semiconductor packaging. The areas are patterned and microfabricated with EUV resists, which are also applicable to new technologies and specialized device manufacturing.

By End-User

• Integrated Device Manufacturers (IDMs): The design and manufacturing of semiconductor devices is in-house at the IDM. To produce proprietary chips, they make use of EUV-photoresists to produce the state of the art process nodes, which guarantee high performance and yield. IDMs should adopt advanced resists so as to remain competitive in logic and memory markets.

• Foundries / Contract Manufacturers: Foundries make semiconductors on behalf of several fabless companies. To satisfy client specifications, to control yield and to guarantee consistency in the process, they rely on dependable, high performance EUV resists. This part is growing as the number of semiconductor manufacturers under outsourcing increases across the world.

• Research & Academic Institutions: EUV photoresists are utilized in experimental lithography, prototyping and advanced semiconductor research by research laboratories and academic institutions. These users are concerned with the new resist chemistries, new process development and ultra-fine patterning methods in order to invent the new technology in the future.

Historical Context

The market of the EUV Photoresists is currently enjoying high rate due to the fluctuation in popularity of smarter, smaller and higher power consuming semiconductor chips that consume less energy, space and money. The development of AI, 5G/6G, IoT and high-performance computing helps in making it easier to offer more sophisticated foundry services and chip production everywhere in the globe. Innovations that are being diversified into consumer electronics, automotive, data center, and edge-computing communities are multi-node, multi-functional, and productivity-enabled designs combined with energy-efficient chip designs.

Impact of Latest Tariff Policies

The dynamic tariff policies and trade regulations have a great impact on the global EUV photoresist market. Many of the critical constituents and intermediates that are employed in EUV resists including high-purity monomers, specialty solvents and advanced polymers are imported to Asia and hence are prone to importation tariffs and trade limitations. Higher tariffs increase the landed costs, squeezing the suppliers, and both prices could increase in the foundries.

Furthermore, the adherence to local regulations, including environmental, safety, and various other requirements, is also raising the cost of production and the testing needs, especially among small manufacturers. Companies are, in turn, reacting to such trends by localizing production more and more, pursuing the dual-sourcing approach or engaging in the contract manufacturing arrangement. The interruption of supply chains due to changes in trade policy can also increase lead times, and this highlights the importance of making manufacturing and logistic machinery flexible and resilient.

Report Scope

Regional View

North America: North American EUV Photoresists Market is delivering at the forefront of the world because the region has high semiconductor fabrication, high R&D, and a solid ecosystem of chip makers. The introduction of advanced lithography equipment, the rising demand of logic and memory devices, and the next-generation node give rise to market growth.

• US: The North American market is dominated by the U.S. with high fab density, great AI and HPC acceptance, and early adoption of advanced EUV lithography. Sub-7nm processes are highly demanded by leading semiconductor companies and foundries, which are investing heavily in sub-7nm processes. The cooperation with the manufacturers of the EUV scanners increases the adoption and innovation.

• Canada: Canada demonstrates stable growth, which is supported by semiconductor research centers and niche foundries. EUV photoresist R&D activities, pilot manufacturing, and government subsidies are factors that drive demand of EUV photoresists. Market expansion can be explained by the emphasis on high-tech chip prototyping and sustainable production.

Europe: Europe is a major participant in the entire EUV Photoresist Market globally owing to intensive semiconductor research and development, specialisation and sustainability-oriented efforts. The use of advanced resists is being encouraged by the fact that governments and manufacturers are encouraging the use of green materials and energy-efficient processes.

• Germany: The EUV resist demand is driven by Germany’s semiconductor industry, which has specialized fabs and research centers. The use of energy-efficient and multi-functional resistors is encouraged by high-tech applications in the automotive and industrial electronics industries. Local manufacturers are concerned with the optimization of performance and the yield to comply with the current demands.

• United Kingdom: UK market is expanding as the research investments in semiconductors as well as fab capacity increase. The focus on logic and memory development, as well as academic-industry partnerships, facilitates the need to have next-generation EUV resists.

• France: France is experiencing an upsurge because of investment in semiconductor R&D, advanced packing orientation, and the introduction of sustainable resist chemistries. The combination of international suppliers and local fabs increases the penetration to the market.

Asia-Pacific: Asia-Pacific has the best EUV Photoresists Market since it has a great semiconductor manufacturing base, it has more investments in memory and logic fabs, and technological innovations. The stimulating demand is contributed by urbanization, government incentives, and the growing foundries.

• China: China is the leader in the region, having massive fab expansions and production of memory/logic chips. Good supply of advanced EUV photoresists is due to strong domestic and international supply of these suppliers. Semiconductor self-reliance government efforts also create growth.

• India: India EUV resist market is growing and it is due to the rising semiconductor R&D hubs and pilot fabs and rising investment in chip production. The availability of high-end lithography materials is being increased due to government incentives and international partnerships.

• Japan: Japan concentrates on high-precision, energy efficient and multi-functional semiconductor node resists. Market growth is supported by long term R&D, high usage of EUV lithography and alliances with equipment manufacturers.

LAMEA: LAMEA: There is an upsurge in usage of EUV photoresist in the LAMEA region through the heightening research in the semiconductor sector, growing demand on industrial electronics, and government support in building up local production.

• Brazil: Brazil is increasing its focus on semiconductor R&D, niche foundries and technology incubation centers to facilitate the use of EUV resist. The demand is also pushed by investments in electronics production and scholarly studies.

• Saudi Arabia: The Saudi Arabia semiconductor market is growing, enhanced by the government efforts, like the vision 2030, which promotes the use of technology and the creation of local fabs. EUV resistance is increasing in pilot production and high-technology research facilities.

• South Africa: South Africa is an up-and-coming semiconductor research- and electronics prototyping center in the region. The demand for EUV photoresist is supported by increasing urbanization, investment in research and development laboratories, and the use of emerging technologies in advanced fabrication.

Key Developments

• In September 2023, JSR Corporation announced that through IMEC’s pilot line, it has qualified its next generation metal-oxide EUV resist for High-NA EUV lithography.

Leading Players

The EUV Photoresists Market is highly competitive, with a large number of product providers globally. Some of the key players in the market include:

• Tokyo Ohka Kogyo Co. Ltd. (TOK)
• JSR Corporation
• Shin‑Etsu Chemical Co. Ltd.
• Sumitomo Chemical Co. Ltd.
• Fujifilm Holdings Corporation
• DuPont de Nemours Inc.
• Merck KGaA (via AZ Electronic Materials)
• Dongjin Semichem Co. Ltd.
• Inpria Corporation
• Micro Resist Technology GmbH
• Allresist GmbH
• Nippon Kayaku Co. Ltd.
• Avantor Inc.
• Kayaku Advanced Materials Inc.
• Toray Industries Inc.
• JSR Micro NV
• PiBond Oy
• DJ MicroLaminates Inc.
• Chimei Corporation
• LG Chem Ltd.
• Others

The global EUV Photoresists Market is witnessing robust expansion, driven by rapid semiconductor innovation, rising demand for high-performance chips, and the shift toward smaller process nodes. As chipmakers adopt sub-7nm and 5nm nodes, EUV photoresists have become essential for achieving precise patterning and high wafer yields.

Technological advancements, such as metal-oxide and inorganic resist chemistries, are enhancing resolution, sensitivity, and line-edge control, reshaping the semiconductor manufacturing landscape. Integration with advanced EUV scanners, optimized for high-volume fabs, improves throughput and reliability. Furthermore, the growth of AI, 5G, HPC, and memory applications, combined with global foundry expansion and local manufacturing initiatives, is driving adoption worldwide, particularly in Asia-Pacific, North America, and Europe, where advanced nodes and R&D investments are accelerating production efficiency and process innovation.

The EUV Photoresists Market is segmented as follows:

By Type

• Chemically Amplified Resists (CARs)
• Metal-Oxide Resists (MORs)
• Inorganic/Hybrid Resists
• Other Specialty Resists

By Application

• Logic Chips
• Memory Chips
• Foundry & Fab Services
• Specialty/Other Applications

By End-User

• Integrated Device Manufacturers (IDMs)
• Foundries/Contract Manufacturers
• Research & Academic Institutions

Regional Coverage:

North America

• U.S.
• Canada
• Mexico
• Rest of North America

Europe

• Germany
• France
• U.K.
• Russia
• Italy
• Spain
• Netherlands
• Rest of Europe

Asia Pacific

• China
• Japan
• India
• New Zealand
• Australia
• South Korea
• Taiwan
• Rest of Asia Pacific

The Middle East & Africa

• Saudi Arabia
• UAE
• Egypt
• Kuwait
• South Africa
• Rest of the Middle East & Africa

Latin America

• Brazil
• Argentina
• Rest of Latin America

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