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Received July 18, 2021
Accepted December 1, 2021
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This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits
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Fabrication of Ag-doped ZnO/PAN composite nanofibers by electrospinning: Photocatalytic and antiviral activities
Department of Chemical Engineering, Hanyang University, Seoul 04763, Korea 1School of Chemical Engineering, Institute of Chemical Process (ICP), Institute of Engineering Research, Seoul National University, Seoul 08826, Korea 2Sensor Lab, Smart Device Team, Samsung Research, Samsung Electronics Co., Ltd., Seoul 06756, Korea
Korean Journal of Chemical Engineering, June 2022, 39(6), 1632-1640(9), 10.1007/s11814-021-1037-4
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Abstract
Ag-doped ZnO nanoparticles (AZNs) were directly synthesized using sol-gel method to embed into polyacrylonitrile (PAN) nanofibers by electrospinning. The synthesized AZNs were optically and structurally characterized by UV-VIS spectroscopy, photoluminescence spectroscopy, high resolution HR-TEM and XRD. The photocatalytic activity of the AZNs was examined by photocatalytic degradation of methylene blue to correlate with their antiviral efficacy in PAN nanofibers fabricated via electrospinning technique. The PAN nanofibers containing AZNs were characterized using SEM and EDS. Finally, antiviral activity of AZNs/PAN nanofibers was investigated by using virus φx174 under visible light irradiation. As a result, the antiviral efficacy of nanofibers increased as the concentration of Ag in AZNs increased. The results show that better antiviral efficacy was obtained in AZNs/PAN nanofibers prepared with AZNs of higher photocatalytic performance.
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References
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Girard MP, Tam JS, Assossou OM, Kieny MP, Vaccine, 28(31), 4895 (2010)
Jiang F, Deng L, Zhang L, Cai Y, Cheung C, Xia Z, J. Gene. Med., 35, 1545 (2020)
Ge ZY, Yang LM, Xia JJ, Fu XH, Zhang YZ, J. Zhejiang Univ. Sci. B., 21(5), 361 (2020)
Dembinski JL, Hungnes O, Hauge AG, Kristoffersen AC, Haneberg B, Mjaaland S, J. Virol. Methods, 207, 232 (2014)
Moorer WR, Int. J. Dent Hyg., 1(3), 138 (2003)
Yoo JH, J. Infect. Chemother., 50(2), 101 (2018)
Fateh R, Dillert R, Bahnemann D, ACS Appl. Mat. Interfaces, 6(4), 2270 (2014)
Yoon J, Oh SG, J. Ind. Eng. Chem., 96, 390 (2021)
Jin SE, Jin HE, Nanomaterials, 11(2), 263 (2021)
Nakano R, Ishiguro H, Yao Y, Kajioka J, Fujishima A, Sunada K, Minoshima M, Hashimoto K, Kubota Y, Photochem. Photobiol. Sci., 11(8), 1293 (2012)
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Jiang J, Pi J, Cai J, Bioinorg. Chem. Appl., 2018, 1062562 (2018)
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Ilka M, Bera S, Kwon SH, Materials, 11(6), 904 (2018)
Fabbiyola S, Kennedy LJ, Aruldoss U, Bououdina M, Dakhel AA, JudithVijaya J, Powder Technol., 286, 757 (2015)
Wang Y, Yang Y, Zhang X, Liu X, Nakamura A, CrystEngComm., 14(1), 240 (2012)
Ali N, Singh B, Khan ZA, Tarafder K, Ghosh S, Sci. Rep., 9(1), 2461 (2019)
Dias HB, Bernardi MIB, Marangoni VS, de Abreu Bernardi AD, de Souza Rastelli AN, Hernandes AC, Mater. Sci. Eng. C-Biomimetic Supramol. Syst., 96, 391 (2019)
Ong WL, Huang H, Xiao J, Zeng K, Ho GW, Nanoscale, 6(3), 1680 (2014)
Naskar A, Lee S, Kim KS, RSC Adv., 10(3), 1232 (2020)
Jeremiah SS, Miyakawa K, Morita T, Yamaoka Y, Ryo A, Biochem. Biophys. Res. Commun., 533(1), 195 (2020)
Di Mauro A, Zimbone M, Fragalà ME, Impellizzeri G, Mater. Sci. Semicond. Process, 42, 98 (2016)
Roongraung K, Chuangchote S, Laosiripojana N, Sagawa T, ACS Omega, 5(11), 5862 (2020)
Kim JH, Lee JH, Kim JY, Kim SS, Appl. Sci., 8(2), 309 (2018)
Wu QY, Wan LS, Xu ZK, J. Membr. Sci., 409-410, 355 (2012)
Yadav D, Amini F, Ehrmann A, Eur. Polym. J., 138, 109963 (2020)
Eaton AD, Standard methods for the examination of water and wastewater, American Public Health Association, Washington D.C. (2005).
Silambarasan M, Shanmugam S, Soga T, Int. J. ChemTech. Res., 7, 1644 (2015)
Nour ES, Echresh A, Liu X, Broitman E, Willander M, Nur O, AIP Adv., 5(7), 077163 (2015)
Kumar S, Singh V, Tanwar A, J. Mater. Sci. -Mater. Electron., 27(2), 2166 (2016)
Hosseini F, Kasaeian A, Pourfayaz F, Sheikhpour M, Wen D, Mater. Sci. Semicond. Process, 83, 175 (2018)
Jose YJ, Manjunathan M, Selvaraj SJ, J. Nanostructure. Chem., 7(3), 259 (2017)
Wang L, Int. J. Electrochem. Sci., 14, 9150 (2019)
Peng J, Lu T, Ming H, Dingm Z, Yu Z, Zhang J, Hou Y, Catalysts, 9(12), 1006 (2019)
Li J, Zhou M, Ye Z, Wang H, Ma C, Huo P, Yan Y, RSC Adv., 5(111), 91177 (2015)
Seitov B, Kurbanbekov S, Bakarnova D, Abdyldayeva N, Bakranov N, Catalysts, 11(10), 1235 (2021)
Yu Y, Int. J. Electrochem. Sci., 16, 210259 (2021)
Bechambi O, Chalbi M, Najjar W, Sayadi S, Appl. Surf. Sci., 347, 414 (2015)
Zhang Z, Liu H, Zhang H, Dong H, Liu X, Jia H, Xu B, Superlattices Microstruct., 65, 134 (2014)
Saoud K, Al-Soubaih R, Saeed S, Bensalah N, Al-Fandi M, Singh T, J. Mater. Environ. Sci., 9, 400 (2018)
Ahmad M, Ahmad I, Ahmed E, Akhtar MS, Khalid NR, J. Mol. Liq., 311, 113326 (2020)
Cardoza-contreras M, Vasquez-gallegos A, Vidal-Limon A, Romoherrera J, Aguila S, Contreras O, Catalysts, 9(2), 165 (2019)
Liu H, Shao G, Zhao J, Zhang Z, Liang J, Liu X, Jia H, Xu B, J. Phys. Chem. C, 116(30), 16182 (2012)
Alharthi FA, Alghamdi AA, Al-Zaqri N, Alanazim HS, Alsyahi AA, Marghany AE, Ahmad N, Sci. Rep., 10(1), 20229 (2020)
Zhang L, Zhu X, Wang Z, Yun S, Guo T, Zhang J, Hu T, Jiang J, Chen J, RSC Adv., 9(8), 4422 (2019)
Kim J, Kang T, Kim H, Shin HJ, Oh SG, J. Ind. Eng. Chem., 77, 273 (2019)
Pirzada T, Arvidson SA, Saquing CD, Shah SS, Khan SA, Langmuir, 28(13), 5834 (2012)
Minoshima M, Lu Y, Kimura T, Nakano R, Ishiguro H, Kubota Y, Hashimoto K, Sunada K, J. Hazard. Mater., 312, 1 (2016)
Siriwardana K, Wang A, Gadogbe M, Collier WE, Fitzkee NC, Zhang D, J. Phys. Chem. C, 119(5), 2910 (2015)
Kim JY, Lee C, Cho M, Yoon J, Water Res., 42(1), 356 (2008)
