Abstract
BiOIO3/GO composite photocatalyst was successfully prepared by hydrothermal method and magnetic stirring method. The prepared photocatalyst was characterized by SEM, TEM, XRD, UV–Vis DRS, FT-IR and XPS. Fluorocarbon resin coating (PEVE) was modified with composite photocatalyst, the antibacterial properties of the composite coatings with different doping ratios of GO were evaluated. Among them, the composite coating BiOIO3/6 wt% GO has the highest sterilization rate, which is nearly doubled compared to the pure BiOIO3 coating. Hydroxyl radicals (⋅OH) can be demonstrated as the main active species in the photocatalytic reaction. The mechanism of improving the photocatalytic efficiency was proposed. This paper provides some new insights on the development of marine antifouling coatings, and has certain reference significance for the treatment of ship's ballast water.
This is a preview of subscription content, log in via an institution to check access.
source: UV lamp (12 W, λ = 254 nm), culture time: 48 h, culture temperature: 28 °C)
source: UV lamp (12 W, λ = 254 nm), scavenger: BQ and t-BuOH, content of scavenger: 0.5 mmol, culture time: 48 h, culture temperature: 28 °C)
Similar content being viewed by others
References
Romero-Martinez L, Rivas-Zaballos I, Moreno-Andres J, Moreno-Garrido I, Acevedo-Merino A, Nebot E (2020) Sci Total Environ 711:134611
Feng D, Xu S, Liu G (2015) Chemosphere 125:102–107
Zhang X, Wang DL, Man XK, Wu J, Liu QZ, Qi YF, Liu ZQ, Zhao XY, Wu JX, Hao CY (2020) J Colloid Interface Sci 558:123–136
Qi HP, Wang HL, Zhao DY, Jiang WF (2019) Appl Surf Sci 480:105–114
Wei RB, Huang ZL, Gu GH, Wang Z, Zeng LX, Chen YB, Liu ZQ (2018) Appl Catal B Environ 231:101–107
Karami M, Ghanbari M, Amiri O, Salavati-Niasari M (2020) Sep Purif Technol 253:117526
Zhu ZY, Zhou F, Zhan S (2020) Appl Surf Sci 506:144934–144934
Xing P, Zhou F, Li ZL (2019) Appl Phys A 125:1–7
Wang L, Bahnemann DW, Bian L, Dong G, Zhao J, Wang C (2019) Angew Chem Int Ed 58:8103–8108
Ruan XW, Hu H, Che GB, Zhou PJ, Liu CB, Dong HJ (2019) J Colloid Interface Sci 553:186–196
Shi WL, Lv HC, Yuan SL, Huang H, Liu Y, Kang ZH (2017) Sep Purif Technol 174:75–83
Qin H, Guo RT, Liu XY, Pan WG, Wang ZY, Shi X, Tang JY, Huang CY (2018) Dalton Trans 47:15155–15163
Song YP, Zhou F (2020) Appl Phys A 126:541
Lu ML, Xiao XY, Wang Y, Chen JY (2020) J Alloys Compd 831:154789–154789
Qi XM, Gu ML, Zhu XY, Wu J, Long HM, He K, Wu Q (2016) Chem Eng J 285:11–19
Sun XM, Wu J, Li QF, Liu QZ, Qi YF, You L, Ji Z, He P, Sheng PF, Ren JX, Zhang WB, Lu J, Zhang JJ (2017) Appl Catal B Environ 218:80–90
Wu J, Chen XT, Li CE, Qi YF, Qi XM, Ren JX, Yuan BX, Ni B, Zhou RX, Zhang J, Huang TF (2016) Chem Eng J 304:533–543
Cui DH, Song XC, Zheng YF (2016) RSC Adv 6:71983–71988
Qiao DS, Li ZH, Duan JY, He XP (2020) Chem Eng J 400:125952
Kurniawan TA, Zhu MT, Dun F, Yeap SK, Othman MHD, Avtar R, Tong O (2020) J Environ Manage 270:110871
Lonkar SP, Pillai VV, Alhassan SM (2018) Sci Rep 8:13401
Mahmoodi V, Ahmadpour A, Bastami TR, Mosavian MTH (2018) Sol Energy 176:483–495
Qu SY, Xiong YH, Zhang J (2018) J Colloid Interface Sci 527:78–86
Xu YG, Liu J, Xie M, Jing LQ, Yan J, Deng JJ, Xu H, Li HM, Xie JM (2018) Inorg Chem Front 5:2818–2828
Nosrati R, Olad A, Shakoori S (2017) Mater Sci Eng C 80:642–651
Zhang JL, Ma Z (2018) J Taiwan Inst Chem Eng 88:177–185
Zhou RX, Wu J, Zhang J, Tian H, Liang PK, Zeng T, Lu P, Ren JX, Huang TF, Zhou X, Sheng PF (2017) Appl Catal B Environ 204:465–474
Xiong T, Zhang HJ, Zhang YX, Dong F (2015) Chin J Catal 36:2155–2163
Zhu ZY, Zhou F, Zhan S, Tian Y, He QC (2018) Appl Surf Sci 430:116–124
Tian Y, Zhou F, Zhan S, Yang YF, Liu YJ, He QC (2017) J Inorg Organomet Polym Mater 27:353–362
Jing LQ, Xu YG, Huang SQ, Xie M, He MQ, Xu H, Li HM, Zhang Q (2016) Appl Catal B Environ 199:11–22
Chen X, Zhao QD, Li XY, Wang D (2016) J Colloid Interface Sci 479:89–97
Wang G, Chen QH, Xin YJ, Liu YP, Zang ZL, Hu CG, Zhang B (2016) Electrochim Acta 222:1903–1913
Yu H, Huang B, Wang H, Yuan X, Jiang L, Wu Z, Zhang J, Zeng G (2018) J Colloid Interface Sci 522:82–94
Sun SM, Wang WZ, Li DZ, Zhang L, Jiang D (2014) ACS Catal 4:3498–3503
Dong XD, Yao GY, Liu QL, Zhao QM, Zhao ZY (2019) Inorg Chem 58:15344–15353
He ZQ, Wang D, Fang HY, Chen JM, Song S (2014) Nanoscale 6:10540–10544
Zeng C, Hu YM, Huang HW (2017) ACS Sustain Chem Eng 5:3897–3905
Li SJ, Hu SW, Jiang W, Liu Y, Zhou YT, Liu JS, Wang ZH (2018) J Colloid Interface Sci 530:171–178
Acknowledgements
This work is supported by the National Natural Science Foundation of China (No. 51879018) and the Fundamental Research Funds for the Central Universities (No. 3132021181).
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary Information
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Lai, J., Zhou, F., Zhan, S. et al. Study on the antibacterial properties of BiOIO3/graphene oxide (GO) modified fluorocarbon resin coating (PEVE) under UV light. Reac Kinet Mech Cat 134, 579–589 (2021). https://doi.org/10.1007/s11144-021-02065-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11144-021-02065-x