Global Semiconductor Filters Market Research Report 2023-Competitive Analysis, Status and Outlook by Type, Downstream Industry, and Geography, Forecast to 2029
Semiconductor filter refers to a filter suitable for semiconductor applications such as bulk gas delivery, lithography, deposition, dry etching, ion implantation and other processes. It is mainly composed of filter housing and filter element. The mainstream shell materials are 316L stainless steel, nickel, PTFE material, Hastelloy alloy, etc. The filter media are generally polypropylene, glass fiber, polyethersulfone, PTFE, polyvinylidene fluoride, nylon, UPE, etc.
Market Overview:The latest research study on the global Semiconductor Filters market finds that the global Semiconductor Filters market reached a value of USD 660.77 million in 2022. It’s expected that the market will achieve USD 876.51 million by 2028, exhibiting a CAGR of 4.82% during the forecast period.
Impact of Covid-19
The outbreak of the novel coronavirus pneumonia has severely affected the global economy. Due to the epidemic control measures such as isolation and traffic control in various places, the procurement and sales links of semiconductor filter manufacturing companies will be affected to a certain extent, and some raw material procurement, product delivery, customer acceptance and customer payment progress will be delayed. As the current global COVID-19 epidemic is still developing, the duration and scope of its impact are still difficult to estimate. If the epidemic continues or intensifies, it may further impact the company's upstream suppliers and downstream users, thereby adversely affecting the company's operations. , which may lead to a decrease in the company's operating income and net profit, a slowdown in the collection of accounts receivable, and a weakening of the company's short-term operating capability.
Growth in downstream demand
Increasing investments in the semiconductor filter industry to expand manufacturing facilities, ease of use of filters, increasing adoption of semiconductor components and LEDs, and ongoing technological developments are some of the key factors driving the growth of the semiconductor filter market. In addition, leading players are increasingly focusing on developing cost-effective innovative filters, mainly amid the growing consumption of semiconductor components in medical devices during the COVID-19 pandemic, and the rapid recovery of the Chinese market, which will boost demand for semiconductors in the coming years. Demand for filters. Furthermore, the increasing acquisitions and collaborations with local filtration companies by leading players to strengthen product portfolios, distribution reach, and their presence in the global market further encourages the growth of the semiconductor filters market over the forecast period.
Asia Pacific market is vast
Asia Pacific holds the largest share of the global semiconductor filter market. The region is also expected to witness rapid growth over the forecast period. The rapid growth of the region is mainly driven by the following factors: economic growth in the region, continued technological advancements in filter manufacturing, ease of availability and the presence of numerous players, increasing consumer demand for high-performance filters and increasing demand for filters Investments increase in the semiconductor industry. Furthermore, leading players in this market are focusing on expanding their R&D centers through investments, thereby encouraging the growth of the semiconductor filter market in the region over the forecast period.
Market competition is more intense
The semiconductor industry is going through a stage of rapid development. With the vigorous development of my country's consumer electronics, automotive electronics, industrial electronics and other industries and the rise of smart equipment manufacturing, Internet of Things, new energy and other emerging fields, the global demand for semiconductor products has expanded rapidly, promoting the rapid development of the industry. The good prospects have attracted many enterprises to enter this field, and manufacturers in the industry are actively expanding the market on the basis of consolidating their own advantages, and the market competition is intensifying. With the intensification of market competition and the continuous improvement of end customers' individual needs for products, new technologies and new products are emerging in the industry. Manufacturing companies need to continuously upgrade and update existing products and develop new technologies and New products, and maintain technological advancement and product competitiveness through continuous R&D investment and technological innovation. If the company cannot accurately grasp the market development trend, maintain continuous innovation capabilities in the manufacture of semiconductor filters, and keep abreast of the development direction of downstream applications, it may lead to the company's products being overtaken or replaced, and then it is difficult to maintain the market in the field of new products leading position.
Region Overview:Asia Pacific dominated the Semiconductor Filters market in 2022, with a market share of 63.94%.
Company Overview:Entegris is one of the major players operating in the Semiconductor Filters market, holding a share of 29.87% in 2023.
Entegris
Entegris, Inc. is an American provider of products and systems that purify, protect, and transport critical materials used in the semiconductor device fabrication process.
Pall
Pall Corporation, headquartered in Port Washington, New York, is a global supplier of filtration, separations and purification products.
Segmentation Overview:As for product types, the Semiconductor Gas Filter segment held the largest market share in 2022.
Semiconductor Gas Filter
semiconductor Gas Filters are engineered to eliminate common problems that arise from traditional process gas filtering, such as the filter's potential for outgassing harmful impurities and for particle shedding. Gases are extensively used across various semiconductor manufacturing processes, including deposition, photolithography, etching, doping, annealing, and chamber cleaning. Hence, maintaining the purity of the gases is vital, and gas filters are an integral part of semiconductor and wafer manufacturing.
Semiconductor Water Filter
Semiconductor Water Filters provide filtration systems that remove impurities from water to meet effluent discharge restrictions. The filtered water is so clean that it can be recycled and reused in the factory. The effectiveness of the filter allows for clean water and dry solids for many applications in many fields.
Semiconductor Chemical Filter
Contamination control is one of the most critical issues in semiconductor device fabrication. Semiconductor chemical filters are used to remove chemicals from semiconductor manufacturing processes.
Semiconductor CMP Filter
Semiconductor CMP Filters are designed to maximize semiconductor process performance. CMP Filters are designed to maximize many different semiconductor processes performance by controlling the size, and concentration of slurry particles. Cutting edge CMP filtration technologies lead to higher yields and less defects. By implementing industry leading filter designs, slurry particle size, and quantity of Large Particle Counts (LPCs) can be controlled to specified process parameters.
Application Overview:By application, the Electronic Semiconductor Manufacturing segment occupied the biggest share from 2018 to 2022.
Electronic Semiconductor Manufacturing
Electronic semiconductor production is the process of making integrated circuits, such as transistors, LEDs or diodes used in home electronics and electronic devices. In the front-end process, crystalline silicon ingots are produced and cut into wafers, circuits are fabricated through photolithography and other chemical processes, and finally electronically tested. In the back-end process, chips are diced from the wafer, then wire-bonded, packaged, and tested.
Solar Semiconductor Manufacturing
Semiconductor materials are now being used in the field of solar cells because their band gap energies better overlap with the spectrum of sunlight. Therefore, light-to-electricity conversion for specific color compositions can be optimized by controlling the size of semiconductor nanomaterials. This also means that the use of appropriately sized semiconductor nanomaterials can reduce the energy loss that is transported along the photovoltaic material when collecting charges.
Key Companies in the global Semiconductor Filters market covered in Chapter 3:Cobetter Filtration
Donaldson Company
Daido (Nippon Seisen)
Entegris
Mott Corporation
Camfil
CoorsTek
Porvair
Pall
Critical Process Filtration
In Chapter 4 and Chapter 14.2, on the basis of types, the Semiconductor Filters market from 2018 to 2029 is primarily split into:Semiconductor Gas Filter
Semiconductor Water Filter
Semiconductor Chemical Filter
Semiconductor CMP Filterr
Others
In Chapter 5 and Chapter 14.3, on the basis of Downstream Industry, the Semiconductor Filters market from 2018 to 2029 covers:Electronic Semiconductor Manufacturing
Solar Semiconductor Manufacturing
Geographically, the detailed analysis of consumption, revenue, market share and growth rate, historic and forecast (2018-2029) of the following regions are covered in Chapter 8 to Chapter 14:North America (United States, Canada)
Europe (Germany, UK, France, Italy, Spain, Russia, Netherlands, Turkey, Switzerland, Sweden)
Asia Pacific (China, Japan, South Korea, Australia, India, Indonesia, Philippines, Malaysia)
Latin America (Brazil, Mexico, Argentina)
Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa)