Ameliorating Cu2+ reduction in microbial fuel cell with Z-scheme BiFeO3 decorated on flower-like ZnO composite photocathode

Lam, S.-M. and Sin, J.-C. and Zeng, H. and Lin, H. and Li, H. and Mohamed, A.R. and Lim, J.W. (2022) Ameliorating Cu2+ reduction in microbial fuel cell with Z-scheme BiFeO3 decorated on flower-like ZnO composite photocathode. Chemosphere, 287.

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Abstract

BiFeO3 nanoparticle decorated on flower-like ZnO (BiFeO3/ZnO) was fabricated through a facile hydrothermal-reflux combined method. This material was utilized as a composite photocathode for the first time in microbial fuel cell (MFC) to reduce the copper ion (Cu2+) and power generation concomitantly. The resultant BiFeO3/ZnO-based MFC displayed distinct photoelectrocatalytic activities when different weight percentages (wt) BiFeO3 were used. The 3 wt BiFeO3/ZnO MFC achieved the maximum power density of 1.301 W m�2 in the catholyte contained 200 mg L�1 of Cu2+ and the power density was greatly higher than those pure ZnO and pure BiFeO3 photocathodes. Meanwhile, the MFC exhibited 90.7 removal of Cu2+ within 6 h under sunlight exposure at catholyte pH 4. The addition of BiFeO3 nanoparticles not only manifested outstanding capability in harvesting visible light, but also facilitated the formation of Z-scheme BiFeO3/ZnO heterojunction structure to induce the charge carrier transfer along with enhanced redox abilities for the cathodic reduction. The pronounced electrical output and Cu2+ reduction efficiencies can be realized through the synergistic cooperation between the bioanode and BiFeO3/ZnO photocathode in the MFC. Furthermore, the developed BiFeO3/ZnO composite presented a good stability and reusability of photoelectrocatalytic activity up to five cyclic runs. © 2021 Elsevier Ltd

Item Type: Article
Impact Factor: cited By 5
Uncontrolled Keywords: Bismuth compounds; Copper; Copper compounds; Field emission cathodes; Heterojunctions; II-VI semiconductors; Metal ions; Microbial fuel cells; Nanoparticles; Photocathodes; Reusability; Zinc oxide, reductions; BiFeO3/ZnO; Combined method; Copper ions; Copper reduction; Electricity production; Photocathode; Photoelectrocatalytic activities; Power- generations; Sunlight, Iron compounds, cupric ion; heavy metal; iron oxide nanoparticle; zinc oxide nanoparticle; copper; zinc oxide, cation; composite; fuel cell; nanoparticle; reduction; remediation, Article; density; harvesting; microbial fuel cell; pH; reduction (chemistry); sun exposure; wastewater; bioenergy; electricity; electrode, Bioelectric Energy Sources; Copper; Electricity; Electrodes; Zinc Oxide
Depositing User: Ms Sharifah Fahimah Saiyed Yeop
Date Deposited: 17 Mar 2022 02:01
Last Modified: 17 Mar 2022 02:01
URI: http://scholars.utp.edu.my/id/eprint/28897

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