Application of bimetallic low-cost CuZn as oxygen reduction cathode catalyst in lab-scale and field-scale microbial fuel cell-Reference-Cited by-同舟云学术

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Application of bimetallic low-cost CuZn as oxygen reduction cathode catalyst in lab-scale and field-scale microbial fuel cell

Published:2020-07 Issue: Volume:751 Page:137536
ISSN:0009-2614
Container-title:Chemical Physics Letters
language:en
Short-container-title:Chemical Physics Letters

Author:

Das Indrasis^ORCID,Das Sovik^ORCID,Ghangrekar M.M.^ORCID

Funder

Ministry of Human Resource Development, Government of India

Publisher

Elsevier BV

Subject

Physical and Theoretical Chemistry,General Physics and Astronomy

Reference30 articles.

1. Utilisation of waste medicine wrappers as an efficient low-cost electrode material for microbial fuel cell;Noori;Environ. Technol.,2018

2. Application of low-cost transition metal based Co0.5Zn0.5Fe2O4 as oxygen reduction reaction catalyst for improving performance of microbial fuel cell;Das;MRS Adv.,2018

3. Bio-refractory pollutant removal using microbial electrochemical technologies : A short review;Das;J. Indian Chem. Soc.,2019

4. Bismuth doped TiO2 as an excellent photocathode catalyst to enhance the performance of microbial fuel cell;Bhowmick;Int. J. Hydrogen Energ.,2018

5. Facile loading carbon dots on Co3O4 as an enhanced oxygen reduction reaction catalyst;Zhang;Chem. Phys. Lett.,2020

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4. Enhancing the efficiency of medium-scale dual-chamber microbial fuel cell systems through the utilization of novel electrodes material and proper selection of catholyte and external resistance;Heliyon;2024-08

5. Anodic degradation of salicylic acid and simultaneous bio-electricity recovery in microbial fuel cell using waste-banana-peels derived biochar-supported MIL-53(Fe)-metal-organic framework as cathode catalyst;Journal of Electroanalytical Chemistry;2024-08

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