UVC-LED TECHNOLOGY
The light produced by UVC-LED technology can be precisely adjusted in terms of intensity, wavelength, and on/off timing. This enables optimal disinfection performance and allows the technology to be tailored to the specific needs of different environments.
The ozone layer protects against UVC light.
The ozone layer prevents UVC radiation from reaching the Earth's surface, shielding microbes from these wavelengths of light. This natural protective layer effectively blocks the harmful effects of UV radiation, but the disinfecting power of UVC light can still be harnessed artificially, for example, through UVC-LED technology.
The possibilities of UVC-LED technology
UVC-LED technology enables efficient disinfection by treating air, solid surfaces, and liquids. UVC-LED systems are versatile and adaptable to a wide range of environments, including hospitals, schools, and industrial settings. This technology opens up new possibilities for the development and implementation of advanced disinfection systems, offering tailored solutions for diverse applications.
The effect of UVC light on microbes
UVC radiation breaks down the DNA and RNA chains of microbes, helping to combat antibiotic-resistant bacteria and limit the spread of hospital-acquired infections. By effectively preventing microbial reproduction, UVC light plays a key role in preventing the spread of diseases and improving hygiene in critical environments such as hospitals.
Environmentally friendly disinfection
UVC light disinfection does not affect the structure of the treated surface, targeting only unwanted microorganisms. UVC-LED technology is highly energy-efficient and environmentally friendly; it can be precisely controlled, reducing energy consumption and generating no hazardous waste, unlike traditional fluorescent tube technology. Additionally, the use of UVC light for disinfection significantly reduces the need for chemical disinfectants. These features make UVC-LED systems an eco-friendly alternative for disinfection purposes.