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Gramine-induced growth inhibition, oxidative damage and antioxidant responses in freshwater cyanobacterium Microcystis aeruginosa.

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Responses of enzymatic antioxidants and non-enzymatic antioxidants in the cyanobacterium Microcystis aeruginosa to the allelochemical ethyl 2-methyl acetoacetate (EMA) isolated from reed (Phragmites

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Inactivation of Bacteria by Peracetic Acid Combined with UV Irradiation: Mechanism and Optimization.

Pre-exposure of PAA followed by UV/PAA was demonstrated to yield the highest disinfection efficiency, and PAA-UV-PAA could achieve additional 4.7-5.4 log inactivation of E. coli, E. durans, and S. epidermidis in clean water and secondary/tertiary wastewater effluents when the same amounts of P AA and UV doses were applied in both approaches.
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Development of nanowire-modified electrodes applied in the locally enhanced electric field treatment (LEEFT) for water disinfection

Locally enhanced electric field treatment (LEEFT) is introduced as a nanowire-enabled physical water disinfection method with the advantages of low energy consumption, wide spectrum effectivity, and
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Microwave-induced release and degradation of airborne antibiotic resistance genes (ARGs) from Escherichia coli bioaerosol based on microwave absorbing material.

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Microfluidics for Environmental Applications.

This chapter aims to review the applications of microfluidics in environmental science and engineering - with a particular focus on the foregoing topics.
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Nanowire-Modified Three-Dimensional Electrode Enabling Low-Voltage Electroporation for Water Disinfection.

A new copper oxide nanowire (CuONW)-modified three-dimensional copper foam electrode is developed using a facile thermal oxidation approach for water disinfection using EDCs with great potential for practical applications.
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Carbon-nanotube sponges enabling highly efficient and reliable cell inactivation by low-voltage electroporation

The CNT sponge EDC can be easily powered by batteries or solar cells and shows the best energy consumption performance among all the cell inactivation technologies.
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Locally Enhanced Electric Field Treatment (LEEFT) Promotes the Performance of Ozonation for Bacterial Inactivation by Disrupting Cell Membrane.

The application of LEEFT as a pretreatment process is beneficial to reduce the ozone dosage and disinfection by-product formation with a broader inactivation spectrum, which facilitates the application of ozonation in primary water disinfection.
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Self-Driven “Microfiltration” Enabled by Porous Superabsorbent Polymer (PSAP) Beads for Biofluid Specimen Processing and Storage

P porous superabsorbent polymer (PSAP) beads for fast and self-driven “microfiltration” of biofluid samples are developed and successfully demonstrated that this treatment can reduce sample volume, self-aliquot the liquid sample, avoid microbial contamination, separate plasma from blood cells, stabilize target species inside the beads, and enable long-term storage at room temperature.
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