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- Microorganisms inactivation by wavelength combinations of ultraviolet . . .
Recently, ultraviolet light-emitting diodes (UV-LEDs) have emerged as a new UV source, bringing flexibility for various UV wavelength combinations due to their unique feature of wavelength diversity In this study, we investigated inactivation mechanisms of representative microorganisms at different wavelength combinations using UV-LEDs
- Mechanisms investigation on bacterial inactivation through combinations . . .
On the other hand, UV-C and UV-B wavelengths are known to have similar inactivation mechanisms i e radiation from those wavelengths forms lesions in the genomic DNA (Sinha and Häder, 2002); of
- Mechanisms investigation on bacterial inactivation through combinations . . .
1 Synergistic effect of UV-A and UV-C light is traced to UV-induced damage of the transfer RNA;Water Research;2024-03 2 Disinfection of wastewater by a complete equipment based on a novel ultraviolet light source of microwave discharge electrodeless lamp: Characteristics of bacteria inactivation, reactivation and full-scale studies;Science of The Total Environment;2024-03
- Efficacy of ultraviolet-light emitting diodes in bacterial inactivation . . .
Ultraviolet-light emitting diodes (UV-LEDs) have garnered attention for their efficient bacterial inactivation However, in previous studies, it has been difficult to strictly compare the bacterial inactivation effect of UV irradiation among wavelengths differing by a few nanometers because detailed UV irradiation conditions for comparison, such as the LED characteristics at each wavelength
- Mechanisms investigation on bacterial inactivation through combinations . . .
Recently, ultraviolet light-emitting diodes (UV-LEDs) have emerged as a new UV source, bringing flexibility for various UV wavelength combinations due to their unique feature of wavelength diversity In this study, we investigated inactivation mechanisms of representative microorganisms at different wavelength combinations using UV-LEDs
- Mechanisms investigation on bacterial inactivation through combinations . . .
Mechanisms investigation on bacterial inactivation through combinations of UV wavelengths https: doi org 10 1016 j watres 2019 114875 · Journal: Water Research
- Modelling the effect of UV light at different wavelengths and treatment . . .
The present study observed dissimilarities in the effectiveness of different UV wavelengths and combinations for the decontamination of C jejuni NCTC 11168 in liquid Mechanisms investigation on bacterial inactivation through combinations of UV wavelengths Water Research, Volume 163, 2019, Article 114875
- Bacteria Under UV Light: How Exposure Affects Them
Ultraviolet A (UVA), with wavelengths from 315 to 400 nm, makes up about 95% of the UV radiation reaching Earth’s surface It is less directly harmful to bacterial DNA than shorter-wavelength UV radiation but induces damage through oxidative stress
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