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Book
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Chapter
Altering Current Driven Nanowire-assisted Electroporation Disinfection with the Enhanced Electrode Life
The nanowire-modified electrode can be completely covered with a tightly bonded PDA film, which significantly improves the physical and chemical stability, thus increasing the electrode lifetime.
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Chapter
Conclusions and Perspectives
In this study, a nanowire-assisted electroporation disinfection system based on the internal filtration treatment mode using porous electrodes was constructed.
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Chapter
Nanowire-assisted Electroporation Disinfection for Reclaimed Water
The aforementioned study used a high-frequency AC power supply to drive efficient microbial disinfection using PDA-coated nanowire-modified electrodes for 15 consecutive days. The long electrode lifetime of 15...
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Chapter
Surface Coating on Nanowire-Modified Electrode Lifetime Enhancement
Cu3P nanowire-modified copper foam electrodes with stable physical structure and high chemical stability can achieve efficient microbial disinfection during long-term operation. Mechanisms of electrode loss durin...
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Chapter
Fabrication of High-Durability Nanowire-Modified Electrodes and Investigation of Their Microbial Disinfection Performance
When nanowires with ideal morphology are grown on the surface of the porous electrode, a strong electric field can generate at the tip area of the nanowires even with a low external voltage (1 V).
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Chapter
Introduction
Water is a basic human need, whereas one in three people do not have reliable access to safe drinking water worldwide every year. The contaminated drinking water has become one of the main transmission pathway...
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Chapter
Effect of the Nanowire Morphology and Electrode Structure on Microbial Inactivation
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Chapter
Development of Nanowire-Modified Electrodes and Investigation of the Microbial Inactivation Performance
Bacteria can undergo irreversible electroporation reactions in the region of the nanowire-enhanced electric field, leading to cell death.