市場調查報告書
商品編碼
1351106
2030 年遠端等離子體源市場預測 - 按類型、用途、最終用戶和地區分類的全球分析Remote Plasma Source Market Forecasts to 2030 - Global Analysis By Type, Application, End User, and By Geography |
根據Stratistics MRC的數據,2023年全球遠程等離子體源市場規模為3.6195億美元,預計在預測期內將以22.2%的年複合成長率成長,到2030年達到14.7283億美元。
使用傳統的氣體吹掃技術很難去除碳氫化合物污染物,因此在真空室內安裝了遠端等離子體源。遠程等離子體源通常用於涉及半導體加工中光阻劑乾法去除的應用。此外,它還可用於去除最後一層雜質,以在分子層面上清潔表面。
根據美國太空總署太空中心的說法,太陽核心中的氫被保存在熱等離子體氣泡中,該氣泡將熱量傳輸到太陽表面。
消費性電子產品、汽車技術和物聯網 (IoT) 的進步推動了電子產品需求的不斷成長,為半導體產業提供了支援。此外,隨著晶片設計變得更加複雜並且需要更精細的蝕刻和沈積工藝,對 RPS 技術的需求也在增加。此外,由於半導體製造向先進節點的過渡在很大程度上依賴精密等離子體處理,RPS 系統變得越來越普及。
實施遠端等離子體源 (RPS) 系統的初期成本很高,包括資本設備、安裝成本、培訓和技能開發、持續維護和支援合約、安全和合規措施、營運規模、投資回報率考慮因素、資金籌措困難、預算限制和資產管理問題。其他好處包括探索資金籌措方案和尋求政府激勵措施,以確保 RPS 技術的實施符合長期業務目標並帶來積極的投資回報。需要仔細規劃,包括廣泛的成本效益分析。
RPS技術在5G通訊、電動車(EV)製造、可再生能源等產業發展中具有巨大潛力。這些行業需要精密的等離子製程來製造和修改零件,為 RPS 製造商提供了令人興奮的新市場機會。此外,隨著這些產業的不斷擴張,RPS 技術的精確度和適應性已成為這些產業的關鍵推動因素。
技術過時是 RPS 市場的一個嚴重威脅,等離子體技術的快速進步很快就導致現有系統過時。為了生存,公司必須不斷投資於研發,以保持其 RPS 解決方案在市場前沿的競爭力。此外,未能解決技術過時問題可能會導致競爭優勢喪失、市場相關性降低以及潛在收入減少。
COVID-19 的爆發對 RPS 市場產生了重大影響,擾亂了供應鏈,推遲了安裝,迫使受影響的行業減少資本支出,並暫時減緩了市場成長。此外,公司還透過實施遠端維護並探索與大流行相關的領域(例如醫療設備製造)的應用來進行適應。隨著企業加強數位化配合措施遠端管理業務,這場大流行凸顯了敏捷供應鏈策略的價值。
預計感應耦合電漿(ICP)將在預測期內佔據最大的市場佔有率。 ICP 系統廣泛應用於半導體製造、環境分析和元素分析等各個行業,因為它們可以產生緻密且穩定的等離子體,以實現精確和受控的製程。此外,ICP技術的高適應性使其成為從材料表面處理到分析光譜等廣泛用途的首選,大大增加了其市場優勢。
預計醫療保健產業的市場年複合成長率最高。對尖端藥品、診斷和醫療設備的需求正在推動這一成長,所有這些都依賴精確、受控的等離子體製程。醫療設備的滅菌、表面改性、藥物傳遞系統以及新治療方法的開發都嚴重依賴 RPS 技術。此外,RPS市場這一細分市場的不斷擴張和崛起也源於對醫療進步的不斷追求以及醫療保健領域對更清潔、更有效的製造流程的需求。
RPS(遠程等離子體源)最大的市佔率位於亞太地區。中國、韓國、台灣和日本等國的電子和半導體生產蓬勃發展。這些國家是全球半導體的主要生產國,嚴重依賴 RPS 技術作為其尖端生產方法。此外,由於新興經濟體擴大將 RPS 系統用於醫療保健和可再生能源等各種應用,該地區的市場佔有率正在加強。由於在這些關鍵領域的大量參與和不斷成長的技術投資,亞太地區目前對全球 RPS 市場的貢獻最大。
RPS(遠程等離子體源)市場也在北美以最快的速度成長。以美國和加拿大為中心的半導體行業的存在對該地區的成長做出了重大貢獻。這些國家是全球半導體製造業的主要貢獻者,對RPS技術支援尖端晶片製造技術的需求日益成長。此外,北美對5G技術和電動車製造等尖端產業研發和創新的關注將進一步促進RPS系統的採用。
According to Stratistics MRC, the Global Remote Plasma Source Market is accounted for $361.95 million in 2023 and is expected to reach $1472.83 million by 2030 growing at a CAGR of 22.2% during the forecast period. Hydrocarbon contaminants are extremely challenging to remove using traditional gas purging techniques, so a remote plasma source is installed in a vacuum chamber. In applications involving the dry removal of photoresist in semiconductor processing, remote plasma sources are typically used. Additionally, in order to make a surface clean at the molecular level, they can also be used to remove the final layer of impurities from it.
According to NASA Space Place, the hydrogen in the sun's core is held with bubbles of hot plasma transport heat to the surface of the sun.
The semiconductor industry is supported by the rising demand for electronics, which is fueled by advances in consumer electronics, automotive technology, and the Internet of Things (IoT). Moreover, RPS technology is in high demand as chip designs become more complex and call for finer etching and deposition processes. RPS systems are also becoming more popular because the switch to advanced nodes in semiconductor manufacturing heavily depends on precise plasma processing.
The high initial cost of installing Remote Plasma Source (RPS) systems includes the cost of capital equipment, installation costs, training and skill development, ongoing maintenance and support agreements, safety and compliance measures, the size of operations, ROI considerations, financing difficulties, budgetary constraints, and asset management issues. Additionally, these financial burdens, which are especially difficult for startups and smaller businesses, demand careful planning, investigating financing options, looking for government incentives, and performing extensive cost-benefit analyses to guarantee that the adoption of RPS technology is in line with long-term business objectives and provides a positive return on investment.
RPS technology has enormous potential in developing industries like 5G telecommunications, the production of electric vehicles (EVs), and renewable energy. These industries require precise plasma processes for component fabrication and improvement, offering RPS manufacturers exciting new market opportunities. Furthermore, the accuracy and adaptability of RPS technology place it as a crucial enabling factor for these industries' advancement as they continue to expand.
In the RPS market, where rapid advances in plasma technology can quickly make existing systems obsolete, technological obsolescence is a serious threat. Companies need to continuously invest in research and development to keep their RPS solutions at the forefront of the market and competitive in order to survive. Moreover, failure to address technological obsolescence may result in a loss of competitive advantage, a decline in market relevance, and a potential revenue decline.
The COVID-19 pandemic had a significant impact on the RPS market, disrupting supply chains, delaying installations, and causing affected industries to cut back on capital expenditures, which temporarily slowed market growth. Additionally, companies adapted by implementing remote servicing and investigating applications in fields connected to the pandemic, like the manufacture of medical equipment. In order to manage operations remotely, businesses increased their digitization efforts, and the pandemic highlighted the value of agile supply chain strategies.
During the forecast period, it is anticipated that inductively coupled plasma (ICP) will account for the largest market share. Because they can produce high-density, stable plasmas for precise and controlled processes, ICP systems are widely used in a variety of industries, including semiconductor manufacturing, environmental analysis, and elemental analysis. Moreover, ICP technology's adaptability makes it a top choice for uses ranging from material surface treatment to analytical spectroscopy, greatly enhancing its dominant market position.
The highest CAGR in the market is anticipated for the health care industry. The demand for cutting-edge pharmaceuticals, diagnostics, and medical devices-all of which depend on precise and controlled plasma processes-is what fuels this growth. Sterilization, surface modification of medical devices, drug delivery systems, and the creation of novel treatments all rely heavily on RPS technology. Furthermore, the continued expansion and prominence of this industry segment within the RPS market are also attributed to the ongoing pursuit of medical advancements and the requirement for cleaner and more effective manufacturing processes in the healthcare sector.
The largest market share for RPSs (remote plasma sources) is accounted for by the Asia-Pacific region. Strong industries for the production of electronics and semiconductors can be found in nations like China, South Korea, Taiwan, and Japan, which are primarily responsible for this dominance. These countries are major producers of semiconductors globally, and they heavily rely on RPS technology for their cutting-edge production methods. Furthermore, the market share of the region has been strengthened by the rising use of RPS systems in emerging economies for a variety of applications, including healthcare and renewable energy. Due to its substantial involvement in these important sectors and growing technological investments, the Asia-Pacific region is currently the largest contributor to the global RPS market.
The RPS (Remote Plasma Source) market is also growing at the fastest rate in North America. The substantial presence of the region in the semiconductor industry, particularly in the US and Canada, is credited with the region's growth. These nations make substantial contributions to the global semiconductor manufacturing industry, and there is a growing need for RPS technology to support cutting-edge chip production techniques. Moreover, RPS system adoption is further fuelled by North America's emphasis on research and development as well as innovation in cutting-edge industries like 5G technology and electric vehicle manufacturing.
Some of the key players in Remote Plasma Source market include: T-M Vacuum Products, Inc., Lam Research Corporation, Sentech Instruments GmbH, Advanced Energy Industries, Inc., Plasma Etch, Inc., Muegge GmbH, PIE Scientific LLC., ADTEC Plasma Technology Co., Ltd., Rave Scientific, PVA TePla AG, MKS Instruments., Samco Inc., Oxford Instruments plc and XEI Scientific, Inc.
In August 2023, MKS Instruments Inc., a global technology provider, has announced the closing of the previously announced acquisition of Atotech Ltd. (Berlin, Germany), a global leader in process chemicals, equipment, software and services for printed circuit boards, semiconductor IC packaging and surface finishing.
In July 2023, Lam Research Signs MoU withCeNSEto Upskill Engineers inSemicon Fab. Lam Research on Friday reported signing a Memorandum of Understanding (MoU) with the Centre for Nano Science and Engineering (CeNSE) at the Indian Institute of Science (IISc), Bengaluru. Lam said the MoU is aimed at jointly developing a customised course offering for Indian universities to teach semiconductor fabrication technology utilising its solutions virtual fabrication software, 'SEMulator3D'.