Instantaneous Water Purification by Deep Ultraviolet Light in Water Waveguide: Escherichia Coli Bacteria Disinfection

Matsumoto, Takahiro; Tatsuno, Ichiro; Hasegawa, Tadao

doi:10.3390/w11050968

Cited by 25 publications

(15 citation statements)

References 38 publications

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“…Inactivation with ultraviolet (UV) radiation is a well-established technique that has been used widely, including in the purification of water [1][2][3][4][5] , room decontamination 6,7 , and air purification. The wavelength of UV radiation used is generally shorter than 280 nm, which places it in the UVC region (the wavelength region from 250 to 280 nm is typically used); this wavelength is selected because UVC radiation inactivates pathogenic bacteria, viruses and other microorganisms [8][9][10] .…”

mentioning

confidence: 99%

Transient photothermal inactivation of Escherichia coli stained with visible dyes by using a nanosecond pulsed laser

Kohmura

Igami

Tatsuno

et al. 2020

Sci Rep

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Efficient inactivation of Escherichia coli (E. coli) under visible (532 nm) pulsed light irradiation was achieved by fusion of a visible light-absorbing dye with E. coli. Inactivation experiments showed that 3-log inactivation of E. coli was obtained within 20 min under a 50 kJ/cm2 dose. This treatment time and dose magnitude were 10 times faster and 100 times lower, respectively, than the values previously obtained by using a visible femtosecond laser. The mechanism of bacterial death was modeled based on a transient photothermal evaporation effect, where a quantitative evaluation of the temperature increase was given based on the heat transfer equation. As a result of this theoretical analysis, the maximum temperature of the bacteria was correlated with the absorption ratio, pulse energy, and surface-to-volume ratio. An increase in the surface-to-volume ratio with the decreasing size of organic structures leads to the possibility of efficient inactivation of viruses and bacteria under low-dose and non-harmful-visible pulsed light irradiation. Hence, this method can be applied in many fields, such as the instantaneous inactivation of pathogenic viruses and bacteria in a safe and simple manner without damaging large organic structures.

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mentioning

confidence: 99%

Transient photothermal inactivation of Escherichia coli stained with visible dyes by using a nanosecond pulsed laser

Kohmura

Igami

Tatsuno

et al. 2020

Sci Rep

Self Cite

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Section: Deep Ultraviolet Led Disinfection Applicationmentioning

confidence: 99%

“…With regard to the application of UVC LED to drinking water sterilization and disinfection, Matsumoto et al of Nagoya City University in Japan designed a device that uses water waveguide technology to improve the utilization efficiency of UVC radiation sources. As shown in Figure 9, UVC passes through the water waveguide; then, the water flow in the water pipe can be irradiated for a long time, which effectively improves sterilization efficiency [99]. In a research study on air sterilization using UV radiation, Rudnick et al from Harvard University in the United States determined that a UV sterilization device in a heating ventilation, and air conditioning (HVAC) appliance is more efficient than a portable one [100].…”

Section: Deep Ultraviolet Led Disinfection Applicationmentioning

confidence: 99%

Perspectives on UVC LED: Its Progress and Application

et al. 2021

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High-quality epitaxial layers are directly related to internal quantum efficiency. The methods used to design such epitaxial layers are reviewed in this article. The ultraviolet C (UVC) light-emitting diode (LED) epitaxial layer structure exhibits electron leakage; therefore, many research groups have proposed the design of blocking layers and carrier transportation to generate high electron–hole recombination rates. This also aids in increasing the internal quantum efficiency. The cap layer, p-GaN, exhibits high absorption in deep UV radiation; thus, a small thickness is usually chosen. Flip chip design is more popular for such devices in the UV band, and the main factors for consideration are light extraction and heat transportation. However, the choice of encapsulation materials is important, because unsuitable encapsulation materials will be degraded by ultraviolet light irradiation. A suitable package design can account for light extraction and heat transportation. Finally, an atomic layer deposition Al2O3 film has been proposed as a mesa passivation layer. It can provide a low reverse current leakage. Moreover, it can help increase the quantum efficiency, enhance the moisture resistance, and improve reliability. UVC LED applications can be used in sterilization, water purification, air purification, and medical and military fields.

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“…Therefore, to solve these problems associated with the current water treatment system thrust to do further research in this field. (50). Newly emerged technology that is Ultraviolet light-emitting diodes (UV-LEDs) is poorly characterized in full-scale drinking water treatment systems and hence Peter Jarvis et al,2019 investigated UV-LED reactor that is world's first full-scale UV-LED reactor for cleansing of pathogenic microbes from drinking water (54).…”

Section: Literatures Related To the Chlorination And Inference From That Literature Related To Chlorination Processmentioning

confidence: 99%

A Systematic Review on Advancements in Drinking Water Disinfection Technologies: A Sustainable Development Perspective

Shinde

Apte

2020

J. Environ. Treat. Tech.

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The Sustainable Development Goal 2015-30, which is the blueprint to achieve a better and sustainable future for all includes goal number six, aiming at the provision of clean water and sanitation by 2030 worldwide. But still the rural areas in developing nations are predominantly facing the scarcity of pathogen-free drinking water, which creates an urgent need for research in the area of water disinfection. The paper presents a systematic literature review of the conventional and novel water disinfection techniques supported by a bibliometric analysis based on the data from Scopus and Web of Science data from the year 1980 to 2020 for all the disinfection techniques. The novel and latest water disinfection technology in the literature studied by few researchers are also discussed and it can be concluded that the research related to these latest technologies is fewer and real-life usage is very scanty. The detailed literature review indicates the need for novel, decentralized, low-cost water disinfection technology for providing clean and pathogen-free water to all, overcoming the problems related to access of safe drinking water to rural communities. The paper also identifies the research gaps related to new technologies for water disinfection which needs to addressed in further studies.

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Instantaneous Water Purification by Deep Ultraviolet Light in Water Waveguide: Escherichia Coli Bacteria Disinfection

Cited by 25 publications

References 38 publications

Transient photothermal inactivation of Escherichia coli stained with visible dyes by using a nanosecond pulsed laser

Transient photothermal inactivation of Escherichia coli stained with visible dyes by using a nanosecond pulsed laser

Perspectives on UVC LED: Its Progress and Application

A Systematic Review on Advancements in Drinking Water Disinfection Technologies: A Sustainable Development Perspective

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