Research on a Metal–Organic Framework (MOF)-Derived Carbon-Coated Metal Cathode for Strengthening Bioelectrochemical Salt Resistance and Norfloxacin Degradation DOI Open Access

Mengjie Fan,

Hui Li,

L Wang

et al.

Sustainability, Journal Year: 2024, Volume and Issue: 16(16), P. 6711 - 6711

Published: Aug. 6, 2024

Microbial fuel cells (MFCs) can realize the conversion of chemical energy to electrical in high-salt wastewater, but easily deactivated cathode seriously affects performance MFCs. To enhance stability and sustainability MFC such circumstances, a bimetallic organic framework ZIF-8/ZIF-67 was utilized for synthesis carbon cage-encapsulated metal catalysts this study. Catalysts with different Co Ce ratio (Co@C (without element), CoCe0.25@C, CoCe0.5@C, CoCe1@C) were employed modify activated cathodes The tests demonstrated that MFCs CoCe0.5@C catalyst obtained highest maximum power density (188.93 mW/m2) smaller polarization curve slope, which boosted electrochemical activity microorganisms attached anode. appropriate addition element conductive catalyst’s active center, is beneficial catalytic performance. Under function catalyst, exhibited superior stable norfloxacin (NOR) degradation efficiency. Even after three cycles, NOR rate remained at 68%, negligible 5.6% lower than initial stage. Furthermore, based on analysis microbial diversity, abundance electrogenic bioanode relatively high as catalyst. This may be because better oxygen reduction reaction (ORR) strengthen metabolic anode microorganisms. ability enhanced environment. paper provides an approach address challenge poor salt tolerance treatment, presents new perspective resource utilization, low emissions, sustainable treatment wastewater.

Language: Английский

Impact of Morphology Control of Zinc-Based Zeolitic Imidazolate Frameworks as Carrier Transport Media for CsPbBr3 Quantum Dots on Photoelectrochemical Performance DOI
Yixiang Shi, Jianjun Shi, Lifang Hu

et al.

Journal of Electronic Materials, Journal Year: 2025, Volume and Issue: unknown

Published: March 17, 2025

Language: Английский

Citations

0
Measuring the Efficiency of Photoinduced Electron Transfer at the Perovskite@Metal–Organic Framework Buried Interfaces DOI
Deejan Debnath, Barnali Saha,

Madhusudan Das

et al.

ACS Applied Optical Materials, Journal Year: 2025, Volume and Issue: unknown

Published: April 10, 2025

Language: Английский

Citations

0
Research on a Metal–Organic Framework (MOF)-Derived Carbon-Coated Metal Cathode for Strengthening Bioelectrochemical Salt Resistance and Norfloxacin Degradation DOI Open Access

Mengjie Fan,

Hui Li,

L Wang

et al.

Sustainability, Journal Year: 2024, Volume and Issue: 16(16), P. 6711 - 6711

Published: Aug. 6, 2024

Microbial fuel cells (MFCs) can realize the conversion of chemical energy to electrical in high-salt wastewater, but easily deactivated cathode seriously affects performance MFCs. To enhance stability and sustainability MFC such circumstances, a bimetallic organic framework ZIF-8/ZIF-67 was utilized for synthesis carbon cage-encapsulated metal catalysts this study. Catalysts with different Co Ce ratio (Co@C (without element), CoCe0.25@C, CoCe0.5@C, CoCe1@C) were employed modify activated cathodes The tests demonstrated that MFCs CoCe0.5@C catalyst obtained highest maximum power density (188.93 mW/m2) smaller polarization curve slope, which boosted electrochemical activity microorganisms attached anode. appropriate addition element conductive catalyst’s active center, is beneficial catalytic performance. Under function catalyst, exhibited superior stable norfloxacin (NOR) degradation efficiency. Even after three cycles, NOR rate remained at 68%, negligible 5.6% lower than initial stage. Furthermore, based on analysis microbial diversity, abundance electrogenic bioanode relatively high as catalyst. This may be because better oxygen reduction reaction (ORR) strengthen metabolic anode microorganisms. ability enhanced environment. paper provides an approach address challenge poor salt tolerance treatment, presents new perspective resource utilization, low emissions, sustainable treatment wastewater.

Language: Английский

Citations

0