Excimer lamps, also known as ultraviolet excimer lamps, use excimer gas ratios to obtain high-intensity ultraviolet light of different monochromatic wavelengths, such as 172nm, 222nm, or 308nm. The ultraviolet light emitted by excimers has a single-spectrum characteristic, and the narrow spectral lines and monochromatic ultraviolet radiation spectrum make it possible to use more concentrated power for photoprocessing.
Compared with traditional mercury ultraviolet lamps, excimer ultraviolet lamps are super powerful, precise targeting, free from mercury hazards, environmentally friendly, recyclable, and free from secondary pollution. The characteristics of reaction area and short reaction time have been widely used in microelectronics, medicine, material science, and environmental protection.
Excimer Lamps Market Summary
According to the new market research report “Excimer Lamps- Global Market Share and Ranking, Overall Sales and Demand Forecast 2024-2030”, published by QYResearch, the global Excimer Lamps market size is projected to reach USD 0.18 billion by 2030, at a CAGR of 6.2% during the forecast period.
- Global Excimer Lamps MarketSize(US$ Million), 2019-2030
Source: QYResearch, "Excimer Lamps- Global Market Share and Ranking, Overall Sales and Demand Forecast 2024-2030”
- Global Excimer Lamps Top14Players Ranking and Market Share (Ranking is based on the revenue of 2023, continually updated)
Source: QYResearch, "Excimer Lamps- Global Market Share and Ranking, Overall Sales and Demand Forecast 2024-2030”
According to QYResearch Top Players Research Center, the global key manufacturers of Excimer Lamps include USHIO, Hamamatsu Photonics, ORC MANUFACTURING, WONIK QnC, Radium, SEN ENGINEERING, Excelitas Technologies, Foshan Dingmei Optoelectronics, First UVC, Resonance, etc. In 2023, the global top five players had a share approximately 77.0% in terms of revenue.
Market Drivers:
UV-C Disinfection Demand: The COVID-19 pandemic highlighted the importance of effective disinfection technologies. Excimer lamps capable of emitting UV-C light were being explored for their potential in air and surface disinfection applications, driving demand in healthcare facilities, public spaces, transportation, and more.
Precision Material Processing: Excimer lamps are used in industries requiring precision material processing, such as microelectronics and semiconductors. Their ability to deliver high-energy UV radiation in specific wavelengths makes them suitable for applications like photolithography, photochemical etching, and photoablation.
Water and Air Purification: The demand for efficient water and air purification technologies has driven interest in excimer lamps. They are effective in breaking down organic and inorganic contaminants in water treatment processes, as well as sterilizing air and surfaces in industrial and healthcare settings.
Semiconductor Manufacturing: In semiconductor manufacturing, excimer lamps play a role in the creation of microstructures and patterns on wafers. As semiconductor technologies advance and require higher precision, the demand for reliable UV light sources increases.
Research and Development: Excimer lamps are used in research laboratories for various scientific applications, including photochemistry, materials science, and advanced research projects. The need for controlled UV light sources for experimentation drives demand in this segment.
Restraint:
Technological Advancements and Substitutes: The rapid advancement of technologies, such as UV LED technology, may pose a challenge to the traditional excimer lamps market. UV LEDs offer advantages such as energy efficiency, longer lifespans, and precise wavelength control. As UV LED technology improves, it could potentially become a substitute for certain excimer lamp applications.
Regulatory Compliance: The use of UV radiation, especially in disinfection and sterilization applications, is subject to regulatory standards to ensure safety and effectiveness. Complying with these standards and obtaining necessary certifications can be challenging for manufacturers and users of excimer lamps.
Health and Safety Concerns: UV radiation, especially UV-C, can pose health and safety risks to humans if not properly controlled. Ensuring the safe use of excimer lamps in various applications, especially in public spaces and healthcare settings, requires proper training, protective measures, and adherence to guidelines.
Environmental Regulations: As environmental concerns grow, industries are under pressure to adopt greener technologies and processes. The manufacturing, use, and disposal of excimer lamps could be subject to environmental regulations and considerations related to materials, energy consumption, and waste management.
Market Competition: The excimer lamps market faces competition not only from other UV technologies like UV LEDs but also from alternative methods of achieving similar results. Manufacturers must differentiate their products and emphasize the unique benefits of excimer lamps.
Supply Chain Disruptions: Global events such as pandemics, geopolitical tensions, or natural disasters can disrupt supply chains and impact the availability of essential components and materials required for manufacturing excimer lamps.
Economic Factors: Economic fluctuations and uncertainties can influence investment decisions by industries that rely on excimer lamps. In times of economic downturn, businesses may delay or scale back projects that involve the purchase of equipment like excimer lamps.
About The Authors
| Liu Wang- Lead Author |
| Email: wangliu@qyresearch.com
Tel: +86 15755356372
|
| Ms. Wang has 5 years of industry research experience. She focuses on research related to the industry chain of automotive, consumer goods, software, and services, including auto parts, advanced automotive materials, various popular software, etc. Some research topics include Automotive Air Conditioning Electric Scroll Compressors, Lithium Battery Aluminum Plastic Film, Model-based Development (MBD), Predictive Maintenance Solutions, Webtoons, 3D models, Cloud Gaming Backend Service, Visual Content, DHA from Algae, etc. As an analyst with many years of experience in the consulting industry, she has a keen insight into the industry's market trends and developments and uses data analysis to discover potential market opportunities and threats, providing data support for corporate strategic decisions. |
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