Performances of Metallic (sole, composite) and Non-Metallic Anodes to Harness Power in Sediment Microbial Fuel Cells
Niamul Haque, Daechul Cho, Sunghyun Kwon
Environmental Engineering Research. 2014;19(4):363-367.   Published online 2014 Nov 27     DOI:
Citations to this article as recorded by Crossref logo
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
Electrogenic potential of Enterococcus faecalis DWW1 isolated from the anodic biofilm of a dairy wastewater fed dual chambered microbial fuel cell
P.S. Parihar, S. Keshavkant, S.K. Jadhav
Journal of Water Process Engineering.2022; 45: 102503.     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
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
Submission of “Electric power generation from sediment microbial fuel cells with graphite rod array anode”
Zejie Wang, Bongsu Lim
Environmental Engineering Research.2019; 25(2): 238.     CrossRef
Electrocatalytic activities of Sb-SnO2 and Bi-TiO2 anodes for water treatment: Effects of electrocatalyst composition and electrolyte
Yong Yoon Ahn, So Young Yang, Chimyung Choi, Wonyong Choi, Soonhyun Kim, Hyunwoong Park
Catalysis Today.2017; 282: 57.     CrossRef