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Main Authors: Yan, Meng, Shao, Dadong
Format: Artículo científico
Language:en
Published: Journal of photochemistry and photobiology. B, Biology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39879700/
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author Yan, Meng
Shao, Dadong
author_facet Yan, Meng
Shao, Dadong
Yan, Meng
Shao, Dadong
collection PubMed - marine biology
contents Application of different lights in solving the marine biofouling problem of uranium extraction from seawater. Yan, Meng Shao, Dadong Seawater Ultraviolet Rays Biofouling Uranium Temperature Adsorption Hydrogen-Ion Concentration Marine biofouling remains a big problem of uranium (U(VI)) extraction from seawater. To better utilize sunlight in future, the anti-biofouling properties of typical light sources were evaluated, and ultraviolet (UV) light shows best anti-biofouling capability among studied lights. UV light can damage the cellular structure and intercept the proliferation of marine microorganisms (such as V. alginolyticus), and further control its extracellular polymeric substances (EPS). Microorganism community results clarify that UV light well represses the reproduction and survival of marine microorganisms under different conditions (such as temperature and region), which is in favor of U(VI) extraction. The adsorption capacity of classical U(VI) extraction material poly(amidoxime) (PAO) for U(VI) outstandingly recycled from 47.5 mg/g to 68.5 mg/g after UV irradiated for 12 h at pH 8.2 and 25 °C. UV light can well solve the marine biofouling problem of U(VI) extraction from seawater.
format Artículo científico
id pubmed_39879700
institution PubMed
language en
publishDate 2025
publisher Journal of photochemistry and photobiology. B, Biology
record_format pubmed
spellingShingle Application of different lights in solving the marine biofouling problem of uranium extraction from seawater.
Yan, Meng
Shao, Dadong
Seawater
Ultraviolet Rays
Biofouling
Uranium
Temperature
Adsorption
Hydrogen-Ion Concentration
Application of different lights in solving the marine biofouling problem of uranium extraction from seawater. Yan, Meng Shao, Dadong Seawater Ultraviolet Rays Biofouling Uranium Temperature Adsorption Hydrogen-Ion Concentration Marine biofouling remains a big problem of uranium (U(VI)) extraction from seawater. To better utilize sunlight in future, the anti-biofouling properties of typical light sources were evaluated, and ultraviolet (UV) light shows best anti-biofouling capability among studied lights. UV light can damage the cellular structure and intercept the proliferation of marine microorganisms (such as V. alginolyticus), and further control its extracellular polymeric substances (EPS). Microorganism community results clarify that UV light well represses the reproduction and survival of marine microorganisms under different conditions (such as temperature and region), which is in favor of U(VI) extraction. The adsorption capacity of classical U(VI) extraction material poly(amidoxime) (PAO) for U(VI) outstandingly recycled from 47.5 mg/g to 68.5 mg/g after UV irradiated for 12 h at pH 8.2 and 25 °C. UV light can well solve the marine biofouling problem of U(VI) extraction from seawater.
title Application of different lights in solving the marine biofouling problem of uranium extraction from seawater.
topic Seawater
Ultraviolet Rays
Biofouling
Uranium
Temperature
Adsorption
Hydrogen-Ion Concentration
url https://pubmed.ncbi.nlm.nih.gov/39879700/