Nitrogen removal and electrochemical characteristics depending on separators of two-chamber microbial fuel cells
Kang-yu Lee, In-kwon Choi, Kyeong-ho Lim
Environmental Engineering Research. 2019;24(3):443-448. Published online 2018 Nov 6 DOI: https://doi.org/10.4491/eer.2018.211
Citations to this article as recorded by 
Validity and Reproducibility of Counter Electrodes for Linear Sweep Voltammetry Test in Microbial Electrolysis Cells
Hyungwon Chai, Bonyoung Koo, Sunghoon Son, Sokhee Philemon Jung
Energies.2024; 17(11): 2674. CrossRef
Effects of chloride transport on the bioelectrochemical remediation of nitrate-contaminated groundwater
Hanyu Tang, McKenzie Burns, Mohan Qin
Environmental Science: Water Research & Technology.2024; 10(11): 2776. CrossRef
Recent advances in biological approaches towards anode biofilm engineering for improvement of extracellular electron transfer in microbial fuel cells
Tahseena Naaz, Ankit Kumar, Anusha Vempaty, Nupur Singhal, Soumya Pandit, Pankaj Gautam, Sokhee P. Jung
Environmental Engineering Research.2023; 28(5): 220666. CrossRef
Recent advances in biological hydrogen production from algal biomass: A comprehensive review
Ayesha Aslam, Ali Bahadar, Rabia Liaquat, Muhammad Muddasar
Fuel.2023; 350: 128816. CrossRef
Anode biofilm maturation time, stable cell performance time, and time-course electrochemistry in a single-chamber microbial fuel cell with a brush-anode
Huong V. H. Tran, Eojin Kim, Sokhee P. Jung
Journal of Industrial and Engineering Chemistry.2022; 106: 269. CrossRef
Effect of Nitrate Concentration on the Coupling Process of Electricity Generation and Nitrate Removal in Biocathode Microbial Fuel Cells
Jianping Cheng, Shenlong Shuai, Zhiguo Tang, Shuheng Hu
Journal of Environmental Engineering.2022;[Epub] CrossRef
Trends and perspectives of microbial electrolysis cell technology for ultimate green hydrogen production
Bonyoung Koo, Sokhee P. Jung
Journal of Korean Society of Environmental Enginee.2022; 44(10): 383. CrossRef
Understanding complete ammonium removal mechanism in single-chamber microbial fuel cells based on microbial ecology
Younghyun Park, Jaecheul Yu, Van Khanh Nguyen, Seonghwan Park, Jeongmi Kim, Taeho Lee
Science of The Total Environment.2021; 764: 144231. CrossRef
Comparison of hydrogen production and system performance in a microbial electrolysis cell containing cathodes made of non-platinum catalysts and binders
Sunghoon Son, Bonyoung Koo, Hyungwon Chai, Huong Viet Hoa Tran, Soumya Pandit, Sokhee P. Jung
Journal of Water Process Engineering.2021; 40: 101844. CrossRef
Progress in microbial fuel cells for sustainable management of industrial effluents
Nishat Tabassum, Nafisa Islam, Shoeb Ahmed
Process Biochemistry.2021; 106: 20. CrossRef
Enhancement of gaseous o-xylene degradation in a microbial fuel cell by adding Shewanella oneidensis MR-1
Juping You, Yingying Deng, Han Chen, Jiexu Ye, Shihan Zhang, Jingkai Zhao
Chemosphere.2020; 252: 126571. CrossRef
Technologies for biological removal and recovery of nitrogen from wastewater
Shadi Rahimi, Oskar Modin, Ivan Mijakovic
Biotechnology Advances.2020; 43: 107570. CrossRef
Effects of vertical and horizontal configurations of different numbers of brush anodes on performance and electrochemistry of microbial fuel cells
Taehui Nam, Heunggu Kang, Soumya Pandit, Sang-Hyoun Kim, Sunho Yoon, Sungjun Bae, Sokhee P. Jung
Journal of Cleaner Production.2020; 277: 124125. CrossRef
Cathodic reduction characteristics of 2-chloro-4-nitrophenol in microbial electrolysis cell
Qianli Yu, Wei Xiong, Donggen Huang, Cui Luo, Qiang Yang, Tao Guo, Qi Wei
Environmental Engineering Research.2019; 25(6): 854. CrossRef