Your current location: Home> LED Diode Q&A> Revolutionizing Lighting Technology: The Power of High-Power 405nm LED Innovations
News

Queendom Technology

LED Diode Q&A

Revolutionizing Lighting Technology: The Power of High-Power 405nm LED Innovations

Views:4532       Release time:2025-07-04 22:12:15       Share:

High power 405nm LED, also known as the blue LED, has been a hot topic in the industry in recent years. With its high luminous efficiency and strong penetration ability, it has been widely used in various fields such as display, medical treatment, and industrial applications. This article will introduce the basic knowledge of high power 405nm LED, its market prospects, and the challenges faced by the industry.

Introduction to High Power 405nm LED

High power 405nm LED refers to the LED with a peak emission wavelength of 405nm, which belongs to the blue LED category. The main advantage of high power 405nm LED is its high luminous efficiency, which can reach more than 100lm/W. Compared with traditional white LED, high power 405nm LED has stronger penetration ability and better display effect. Therefore, it has been widely used in various fields such as display, medical treatment, and industrial applications.

Market Prospects of High Power 405nm LED

1. Display Market High power 405nm LED is an essential component of OLED display technology. As the market demand for OLED display continues to grow, the demand for high power 405nm LED will also increase accordingly. According to market research, the global OLED display market is expected to reach 50 billion US dollars by 2025, and the demand for high power 405nm LED will continue to grow. 2. Medical Treatment Market High power 405nm LED has excellent penetration ability, which makes it suitable for medical treatment applications such as laser surgery, photodynamic therapy, and tumor treatment. In recent years, with the continuous development of medical technology, the market demand for high power 405nm LED in the medical treatment field has been increasing. 3. Industrial Applications High power 405nm LED is also widely used in industrial applications such as laser marking, 3D printing, and precision measurement. Its strong penetration ability and high luminous efficiency make it an ideal choice for industrial applications. With the continuous development of the industrial market, the demand for high power 405nm LED will also continue to increase.

Challenges Faced by the High Power 405nm LED Industry

1. Cost Issues The cost of high power 405nm LED is relatively high compared to other types of LED. The main reasons for this are the high cost of raw materials and the complex production process. To promote the development of the high power 405nm LED industry, it is necessary to reduce production costs and improve cost performance. 2. Technical Challenges The development of high power 405nm LED technology still faces many challenges. For example, the problem of heat dissipation, the improvement of luminous efficiency, and the extension of product life. Only through continuous technological innovation can the high power 405nm LED industry achieve sustainable development. 3. Market Competition The high power 405nm LED market is currently facing fierce competition. Many domestic and foreign enterprises are competing for market share. In order to maintain a competitive advantage, enterprises need to constantly improve product quality and reduce costs.

Conclusion

High power 405nm LED has excellent performance and broad application prospects. However, the industry still faces many challenges. Only through continuous technological innovation, cost reduction, and market expansion can the high power 405nm LED industry achieve healthy and sustainable development. In the future, with the continuous development of technology and market demand, high power 405nm LED will play an increasingly important role in various fields.
Service hotline +0086 -13612789419
Service hotline +0086 -13612789419Service hotline +0086 -13612789419
Mobile Site
Mobile Site Mobile Site

Mobile browser scanning

Back to top
Back to topBack to top