| 1 - 1 |
Microbial Fuel Cells Preface
Chang IS, Lee HS, Mohan SV |
| 2 - 13 |
Bioelectronic platforms for optimal bio-anode of bio-electrochemical systems: From nano- to macro scopes
Kim B, An J, Fapyane D, Chang IS |
| 14 - 24 |
Carbon dioxide reduction by mixed and pure cultures in microbial electrosynthesis using an assembly of graphite felt and stainless steel as a cathode
Bajracharya S, ter Heijne A, Benetton XD, Vanbroekhoven K, Buisman CJN, Strik DPBTB, Pant D |
| 25 - 30 |
Characteristic changes in algal organic matter derived from Microcystis aeruginosa in microbial fuel cells
Wang H, Lu L, Liu DM, Cui FY, Wang P |
| 31 - 36 |
Characterization and optimization of cathodic conditions for H2O2 synthesis in microbial electrochemical cells
Sim JY, An JY, Elbeshbishy E, Ryu HD, Lee HS |
| 37 - 45 |
Closed circuitry operation influence on microbial electrofermentation: Proton/electron effluxes on electro-fuels productivity
Nikhil GN, Subhash GV, Yeruva DK, Mohan SV |
| 46 - 50 |
Heat-treated stainless steel felt as scalable anode material for bioelectrochemical systems
Guo K, Soeriyadi AH, Feng HJ, Prevoteau A, Patil SA, Gooding JJ, Rabaey K |
| 51 - 56 |
Hydrogen production from continuous flow, microbial reverse-electrodialysis electrolysis cells treating fermentation wastewater
Watson VJ, Hatzell M, Logan BE |
| 57 - 65 |
Neutral red-mediated microbial electrosynthesis by Escherichia coli, Klebsiella pneumoniae, and Zymomonas mobilis
Harrington TD, Mohamed A, Tran VN, Biria S, Gargouri M, Park JJ, Gang DR, Beyenal H |
| 66 - 72 |
A 90-liter stackable baffled microbial fuel cell for brewery wastewater treatment based on energy self-sufficient mode
Dong Y, Qu YP, He WH, Du Y, Liu J, Han XY, Feng YJ |
| 73 - 77 |
A horizontal plug-flow baffled bioelectrocatalyzed reactor for the reductive decolorization of Alizarin Yellow R
Sun Q, Li ZL, Wang YZ, Cui D, Liang B, Thangavel S, Chung JS, Wang AJ |
| 78 - 82 |
Bioelectrochemically-assisted reductive dechlorination of 1,2-dichloroethane by a Dehalococcoides-enriched microbial culture
Leitao P, Rossetti S, Nouws HPA, Danko AS, Majone M, Aulenta F |
| 83 - 88 |
Effects of pre-fermentation and pulsed-electric-field treatment of primary sludge in microbial electrochemical cells
Ki D, Parameswaran P, Popat SC, Rittmann BE, Torres CI |
| 89 - 95 |
Evaluation of an integrated continuous stirred microbial electrochemical reactor: Wastewater treatment, energy recovery and microbial community
Wang HM, Qu YP, Li D, Zhou XT, Feng YJ |
| 96 - 101 |
Liquid crystal polaroid glass electrode from e-waste for synchronized removal/recovery of Cr+6 from wastewater by microbial fuel cell
Gangadharan P, Nambi IM, Senthilnathan J |
| 102 - 114 |
Metals removal and recovery in bioelectrochemical systems: A review
Nancharaiah YV, Mohan SV, Lens PNL |
| 115 - 121 |
Microbial community structure accompanied with electricity production in a constructed wetland plant microbial fuel cell
Lu L, Xing DF, Ren ZJ |
| 122 - 130 |
Using sediment microbial fuel cells (SMFCs) for bioremediation of polycyclic aromatic hydrocarbons (PAHs)
Sherafatmand M, Ng HY |
| 131 - 138 |
Development of exoelectrogenic bioanode and study on feasibility of hydrogen production using abiotic VITO-CoRETM and VITO-CASE(TM) electrodes in a single chamber microbial electrolysis cell (MEC) at low current densities
Pasupuleti SB, Srikanth S, Mohan SV, Pant D |
| 139 - 146 |
Electrochemical and impedance characterization of Microbial Fuel Cells based on 2D and 3D anodic electrodes working with seawater microorganisms under continuous operation
Hidalgo D, Sacco A, Hernandez S, Tommasi T |
| 147 - 153 |
Graphitic biochar as a cathode electrocatalyst support for microbial fuel cells
Huggins TM, Pietron JJ, Wang HM, Ren ZJ, Biffinger JC |
| 154 - 161 |
Influence of different morphology of three-dimensional CuxO with mixed facets modified air-cathodes on microbial fuel cell
Liu ZQ, Li KX, Zhang X, Ge BC, Pu LT |
| 162 - 169 |
Multi-system Nernst-Michaelis-Menten model applied to bioanodes formed from sewage sludge
Rimboud M, Desmond-Le Quemener E, Erable B, Bouchez T, Bergel A |
| 170 - 179 |
Separators used in microbial electrochemical technologies: Current status and future prospects
Daud SM, Kim BH, Ghasemi M, Daud WRW |
| 180 - 187 |
The addition of ortho-hexagon nano spinel Co3O4 to improve the performance of activated carbon air cathode microbial fuel cell
Ge BC, Li KX, Fu Z, Pu LT, Zhang X |
| 188 - 193 |
The development of catalytic performance by coating Pt-Ni on CMI7000 membrane as a cathode of a microbial fuel cell
Cetinkaya AY, Ozdemir OK, Koroglu EO, Hasimoglu A, Ozkaya B |
| 194 - 201 |
Understanding electricity generation in osmotic microbial fuel cells through integrated experimental investigation and mathematical modeling
Qin M, Ping QY, Lu YB, Abu-Reesh IM, He Z |
| 202 - 209 |
Integrating membrane filtration into bioelectrochemical systems as next generation energy-efficient wastewater treatment technologies for water reclamation: A review
Yuan HY, He Z |
| 210 - 216 |
Enhanced performance of an air-cathode microbial fuel cell with oxygen supply from an externally connected algal bioreactor
Kakarla R, Kim JR, Jeon BH, Min B |
| 217 - 222 |
Coupling of anaerobic digester and microbial fuel cell for COD removal and ammonia recovery
Kim T, An J, Jang JK, Chang IS |
| 223 - 230 |
The effects of microbial fuel cell integration into constructed wetland on the performance of constructed wetland
Srivastava P, Yadav AK, Mishra BK |
| 231 - 241 |
Hydrogen production from switchgrass via an integrated pyrolysis-microbial electrolysis process
Lewis AJ, Ren S, Ye X, Kim P, Labbe N, Borole AP |
| 242 - 247 |
Bioelectricity production from microbial fuel cell using mixed bacterial culture isolated from distillery wastewater
Samsudeen N, Radhakrishnan TK, Matheswaran M |
| 248 - 253 |
Fully reversible current driven by a dual marine photosynthetic microbial community
Darus L, Lu Y, Ledezma P, Keller J, Freguia S |
| 254 - 264 |
Functional and taxonomic dynamics of an electricity-consuming methane-producing microbial community
Bretschger O, Carpenter K, Phan T, Suzuki S, Ishii S, Grossi-Soyster E, Flynn M, Hogan J |
| 265 - 272 |
Influence of inoculum and anode surface properties on the selection of Geobacter-dominated biofilms
Commault AS, Barriere F, Lapinsonniere L, Lear G, Bouvier S, Weld RJ |
| 273 - 282 |
Methods for enrichment of novel electrochemically-active microorganisms
Doyle LE, Marsili E |
| 283 - 287 |
Microbial characterization of anode-respiring bacteria within biofilms developed from cultures previously enriched in dissimilatory metal-reducing bacteria
Pierra M, Carmona-Martinez AA, Trably E, Godon JJ, Bernet N |
