@phdthesis{oai:kitakyu.repo.nii.ac.jp:00000977,
 month = {2022-06-03},
 note = {This study developed adsorbents that target volatile organic compounds (VOCs) and influenza viruses among the threats in the atmosphere through polymer brushes. Confirmed that VOCs could be adsorbed when introducing appropriate functional groups and metal ions through the Cambridge Crystal Graphic Data Centre data and conducted experiments accordingly. As a result, the copper ion-immobilized adsorbent at the degree of grafting (dg) 170% removed up to 50% of 4L acetone gas (50 ppm), and the amount of adsorbed acetone was 0.04mmol/g. In the case of the influenza virus, because hemagglutinin present on the surface of influenza binds to sialic acid through specific recognition, sialic acid was introduced into a polymer brush, and adsorption was attempted. However, wheat germ agglutinin was used as a substitute instead of hemagglutinin. As a result, when dg 87%, the maximum 118.2 μg in 200 μg lectin was adsorbed, and the adsorption rate was 59.1%.},
 school = {北九州市立大学},
 title = {Functional microfiber nonwoven fabric with polymer brush for capturing substances in the air},
 year = {},
 yomi = {キム, ヨンユン}
}