What is Global Electronic and Semiconductor Gases Market?
The Global Electronic and Semiconductor Gases Market is a crucial segment within the broader electronics industry, providing essential gases used in the manufacturing of semiconductors and other electronic components. These gases are vital for various processes such as etching, cleaning, and deposition, which are integral to the production of microchips and other semiconductor devices. The market encompasses a wide range of gases, including hydrogen, nitrogen trifluoride, chlorine, silicon gases, and ammonia, among others. These gases are used in different stages of semiconductor manufacturing, each serving specific functions to ensure the precision and efficiency of the production process. As the demand for electronic devices continues to rise globally, driven by advancements in technology and increasing consumer electronics consumption, the market for electronic and semiconductor gases is expected to grow. This growth is further fueled by the expansion of industries such as telecommunications, automotive, and healthcare, which increasingly rely on sophisticated electronic components. The market is characterized by continuous innovation and development, as manufacturers strive to improve the quality and performance of these gases to meet the evolving needs of the semiconductor industry.
Hydrogen, Nitrogen Trifluoride, Chlorine Gas, Silicon Gases, Ammonia Gas, Others in the Global Electronic and Semiconductor Gases Market:
Hydrogen is one of the most commonly used gases in the semiconductor industry, primarily due to its role in creating a reducing atmosphere during various manufacturing processes. It is often used in combination with other gases to facilitate chemical reactions that are essential for the production of semiconductors. Hydrogen's ability to act as a carrier gas makes it invaluable in processes like chemical vapor deposition (CVD), where it helps in the formation of thin films on semiconductor wafers. Nitrogen trifluoride (NF3) is another critical gas, widely used for chamber cleaning in semiconductor manufacturing. Its high reactivity allows it to effectively remove residues and contaminants from the chambers where semiconductor wafers are processed, ensuring that the equipment remains clean and operational. Chlorine gas is utilized in the etching process, where it helps to precisely remove layers from the semiconductor wafer to create intricate patterns necessary for the functionality of electronic components. Silicon gases, such as silane and dichlorosilane, are essential for the deposition of silicon layers on wafers, a fundamental step in the creation of semiconductor devices. These gases decompose at high temperatures to form a silicon film, which is then used to build the electronic circuits. Ammonia gas plays a crucial role in the nitridation process, where it is used to form silicon nitride layers that serve as insulators or protective coatings on semiconductor devices. This process is vital for enhancing the durability and performance of the final product. Other gases, such as argon and helium, are also used in various stages of semiconductor manufacturing, providing inert environments or acting as carrier gases to facilitate different chemical reactions. The diversity of gases used in the Global Electronic and Semiconductor Gases Market highlights the complexity and precision required in semiconductor manufacturing, as each gas serves a specific purpose to ensure the quality and efficiency of the production process.
Chamber Clean, Oxidation, Deposition, Etching, Doping, Others in the Global Electronic and Semiconductor Gases Market:
The usage of gases in the Global Electronic and Semiconductor Gases Market spans several critical areas of semiconductor manufacturing, each requiring specific gases to achieve desired outcomes. In chamber cleaning, gases like nitrogen trifluoride are used to remove unwanted residues and contaminants from the processing equipment. This step is crucial to maintain the cleanliness and efficiency of the manufacturing environment, preventing defects in the semiconductor devices. During oxidation, gases such as oxygen and hydrogen are used to form oxide layers on the semiconductor wafers. These layers serve as insulators or protective barriers, enhancing the performance and reliability of the electronic components. Deposition processes, including chemical vapor deposition (CVD) and physical vapor deposition (PVD), rely heavily on gases like silane, ammonia, and hydrogen. These gases facilitate the formation of thin films on the wafers, which are essential for building the intricate circuits found in semiconductor devices. Etching is another critical process where gases like chlorine and fluorine are used to selectively remove material from the wafer surface, creating the necessary patterns for the electronic circuits. This step requires high precision to ensure that the patterns are accurately formed, which is vital for the functionality of the final product. Doping involves the introduction of impurities into the semiconductor material to modify its electrical properties. Gases such as phosphine and diborane are commonly used in this process, allowing manufacturers to control the conductivity of the semiconductor devices. Other applications of gases in the semiconductor industry include annealing, where gases like nitrogen and hydrogen are used to alter the physical properties of the semiconductor material, and plasma cleaning, which uses gases like argon to remove organic contaminants from the wafer surface. Each of these processes is integral to the production of high-quality semiconductor devices, and the selection of appropriate gases is critical to achieving the desired results. The Global Electronic and Semiconductor Gases Market plays a vital role in supporting these processes, providing the necessary gases to ensure the efficiency and precision of semiconductor manufacturing.
Global Electronic and Semiconductor Gases Market Outlook:
The outlook for the Global Electronic and Semiconductor Gases Market indicates a promising growth trajectory, with the market expected to expand from $3,866.1 million in 2024 to $6,033.4 million by 2030. This growth is projected at a compound annual growth rate (CAGR) of 7.7% over the forecast period. The increasing demand for electronic devices and advancements in technology are key drivers of this growth, as they necessitate the use of specialized gases in semiconductor manufacturing. In the Americas, sales reached $142.1 billion, marking a 17.0% increase year-on-year, reflecting the region's strong demand for electronic components. Europe also saw significant growth, with sales totaling $53.8 billion, up 12.6% from the previous year. This growth is indicative of the region's expanding electronics industry and the increasing adoption of advanced technologies. Japan, a major player in the semiconductor market, reported sales of $48.1 billion, representing a 10.0% year-on-year increase. This growth underscores Japan's continued leadership in semiconductor manufacturing and its commitment to innovation in the electronics sector. Overall, the Global Electronic and Semiconductor Gases Market is poised for substantial growth, driven by the rising demand for electronic devices and the ongoing advancements in semiconductor technology.
| Report Metric | Details |
| Report Name | Electronic and Semiconductor Gases Market |
| Accounted market size in 2024 | US$ 3866.1 million |
| Forecasted market size in 2030 | US$ 6033.4 million |
| CAGR | 7.7 |
| Base Year | 2024 |
| Forecasted years | 2025 - 2030 |
| Segment by Type |
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| Segment by Application |
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| Production by Region |
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| Sales by Region |
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| By Company | SK Materials, Versum Materials, Air Liquide, Taiyo Nippon Sanso, Praxair-Linde, Kanto Denka, Showa Denko, Air Products and Chemicals, Hyosung, Sumitomo Seika Chemicals, Central Glass, The 718th Research Institute of CSSC, Adeka, REC, Mitsui Chemical, Tokuyama, Huate Gas |
| Forecast units | USD million in value |
| Report coverage | Revenue and volume forecast, company share, competitive landscape, growth factors and trends |
