10Far-UVC DifferencesFrom Regular UV
1. Far-UVC light is safer for human exposure than conventional UV-C light, as it only penetrates the outer layers of skin and eyes.
2. Far-UVC light is more effective at disinfecting surfaces, as it cannot be absorbed by organic material.
3. Far-UVC light requires less energy to achieve the same level of disinfection as conventional UV-C light.
4. Far-UVC light is more targeted in its disinfecting capabilities, potentially reducing the amount of energy required to achieve the same level of disinfection as conventional UV-C light.
5. Far-UVC light is effective against antibiotic-resistant bacteria, while conventional UV-C light may not be as effective.
6. Far-UVC light is less likely to cause damage to surfaces and materials, making it a safer option for disinfection.
7. Far-UVC light has been shown to be more effective in killing airborne viruses, which can be particularly useful in public spaces.
8. Far-UVC light is more versatile in its applications, can be used in a wider range of settings and surfaces.
9. Far-UVC light can be used to disinfect personal protective equipment, such as masks and gloves, which is not possible with conventional UV-C light.
10. Far-UVC light is less expensive in the long run, as it requires less energy and maintenance to achieve the same level of disinfection as conventional UV-C light.
2. Far-UVC light is more effective at disinfecting surfaces, as it cannot be absorbed by organic material.
3. Far-UVC light requires less energy to achieve the same level of disinfection as conventional UV-C light.
4. Far-UVC light is more targeted in its disinfecting capabilities, potentially reducing the amount of energy required to achieve the same level of disinfection as conventional UV-C light.
5. Far-UVC light is effective against antibiotic-resistant bacteria, while conventional UV-C light may not be as effective.
6. Far-UVC light is less likely to cause damage to surfaces and materials, making it a safer option for disinfection.
7. Far-UVC light has been shown to be more effective in killing airborne viruses, which can be particularly useful in public spaces.
8. Far-UVC light is more versatile in its applications, can be used in a wider range of settings and surfaces.
9. Far-UVC light can be used to disinfect personal protective equipment, such as masks and gloves, which is not possible with conventional UV-C light.
10. Far-UVC light is less expensive in the long run, as it requires less energy and maintenance to achieve the same level of disinfection as conventional UV-C light.
