| 1 - 2 |
Foreword
Loch JPG, Lima AT |
| 3 - 9 |
Surface characteristics and photoelectrocatalytic capabilities of nanoporous titanium dioxide/tin indium oxide composite thin film electrodes
Hung CH, Kao CL, Wu KR |
| 10 - 22 |
Development and enhancement of electro-osmotic flow for the removal of contaminants from soils
Cameselle C, Reddy KR |
| 23 - 27 |
Influence of electrolyte temperature on efficiency of electrochemical chloride removal from concrete
Ueda T, Wakitani K, Nanasawa A |
| 28 - 35 |
Effects of pulse current on energy consumption and removal of heavy metals during electrodialytic soil remediation
Sun TR, Ottosen LM |
| 36 - 40 |
Enhancing electrokinetic lead removal from sediment: Utilizing the moving anode technique and increasing the cathode compartment length
Rajic L, Dalmacija B, Dalmacija M, Roncevic S, Perovic SU |
| 41 - 48 |
Impact of electrokinetic-assisted phytoremediation of heavy metal contaminated soil on its physicochemical properties, enzymatic and microbial activities
Cang L, Zhou DM, Wang QY, Fan GP |
| 49 - 56 |
Development of complex electrokinetic decontamination method for soil contaminated with uranium
Kim GN, Kim SS, Park HM, Kim WS, Moon JK, Hyeon JH |
| 57 - 62 |
Pulse-enhanced electrokinetic restoration of sulfate-containing saline greenhouse soil
Jo SU, Kim DH, Yang JS, Baek K |
| 63 - 71 |
Removal characteristics of salts of greenhouse in field test by in situ electrokinetic process
Choi JH, Lee YJ, Lee HG, Ha TH, Bae JH |
| 72 - 79 |
Impact of vertical electrokinetic-flushing technology to remove heavy metals and polycyclic aromatic hydrocarbons from contaminated soil
Giannis A, Tay E, Kao J, Wang JY |
| 80 - 88 |
Electroosmotic pump: Rate controlling mechanism for unusually fast electroremediation kinetics of Cr(VI) in basic Kanpur soil
Kali S, Das RP, Shekhar R |
| 89 - 95 |
In situ field scale electrokinetic remediation of multi-metals contaminated paddy soil: Influence of electrode configuration
Kim WS, Park GY, Kim DH, Jung HB, Ko SH, Baek K |
| 96 - 101 |
The role of iron anode oxidation on transformation of chromium by electrolysis
Sarahney H, Mao XH, Alshawabkeh AN |
| 102 - 109 |
Electrokinetic remediation of dredged sediments polluted with heavy metals with different enhancing electrolytes
Rozas F, Castellote M |
| 110 - 114 |
Electrokinetic treatment of soils contaminated by tannery waste
Castillo AN, Garcia-Delgado RA, Rivero VC |
| 115 - 123 |
Electrodialytic versus acid extraction of heavy metals from soil washing residue
Jensen PE, Ottosen LM, Allard B |
| 124 - 129 |
Electrokinetic remediation using pulsed sinusoidal electric field
Rojo A, Hansen HK, Cubillos M |
| 130 - 137 |
Experimental design for one dimensional electrolytic reactive barrier for remediation of munition constituent in groundwater
Gent DB, Wani A, Alshawabkeh AN |
| 138 - 141 |
Electroremediation of contaminated soil by heavy metals using ion exchange fibers
Souilah O, Akretche DE, Cameselle C |
| 142 - 147 |
In situ electro-osmotic cleanup of tar contaminated soil-Removal of polycyclic aromatic hydrocarbons
Lima AT, Kleingeld PJ, Heister K, Loch JPG |
| 148 - 156 |
Effects of electrode material on the efficiency of hydrocarbon removal by an electrokinetic remediation process
Mendez E, Perez M, Romero O, Beltran ED, Castro S, Corona JL, Corona A, Cuevas MC, Bustos E |
| 157 - 163 |
Lactate injection by electric currents for bioremediation of tetrachloroethylene in clay
Wu XZ, Gent DB, Davis JL, Alshawabkeh AN |
| 164 - 169 |
Effect of soil composition on electrokinetically enhanced persulfate oxidation of polychlorobiphenyls
Yukselen-Aksoy Y, Reddy KR |
| 170 - 176 |
Electrophotocatalysis of aqueous methyl tert-butyl ether on a titanium dioxide coated electrode
Wu TN, Pan TC, Chen LC |
| 177 - 184 |
Electrokinetic-enhanced nanoscale iron reactive barrier of trichloroethylene solubilized by Triton X-100 from groundwater
Huang YC, Cheng YW |
| 185 - 191 |
Electrically assisted liquid hydrocarbon transport in porous media
Ghazanfari E, Shrestha RA, Miroshnik A, Pamukcu S |
| 192 - 202 |
Electrokinetic desalination of sandstones for NaCl removal-Test of different clay poultices at the electrodes
Ottosen LM, Christensen IV |
| 203 - 212 |
Regeneration performance of carbon nanotube by binary metallic oxide electrodes electrokinetic system
Yuan C, Dai YD, Hung CH |
| 213 - 222 |
Modeling of electrokinetic desalination of bricks
Paz-Garcia JM, Johannesson B, Ottosen LM, Alshawabkeh AN, Ribeiro AB, Rodriguez-Maroto JM |
| 223 - 224 |
Foreword
Favier F, Frackowiak E, Donne SW |
| 225 - 231 |
Capacitance of electrochemical double layer capacitors
Lewandowski A, Jakobczyk P, Galinski M |
| 232 - 240 |
Electrochemical double-layer charging of ultramicroporous synthetic carbons in aqueous electrolytes
Lorrmann V, Reichenauer G, Weber C, Pflaum J |
| 241 - 247 |
Insights into the influence of pore size distribution and surface functionalities in the behaviour of carbon supercapacitors
Vaquero S, Diaz R, Anderson M, Palma J, Marcilla R |
| 248 - 254 |
1.9 V aqueous carbon-carbon supercapacitors with unequal electrode capacitances
Chae JH, Chen GZ |
| 255 - 259 |
Influence of structure and wettability of supercapacitor electrodes carbon materials on their electrochemical properties in water and organic solutions
Szubzda B, Szmaja A, Halama A |
| 260 - 267 |
Capacitance behavior of KOH activated mesocarbon microbeads in different aqueous electrolytes
Torchala K, Kierzek K, Machnikowski J |
| 268 - 276 |
Investigation of cavity microelectrode technique for electrochemical study with manganese dioxides
Athouel L, Arcidiacono P, Ramirez-Castro C, Crosnier O, Hamel C, Dandeville Y, Guillemet P, Scudeller Y, Guay D, Belanger D, Brousse T |
| 277 - 281 |
Voltage characteristics and capacitance balancing for Li4Ti5O12/activated carbon hybrid capacitors
Yang JJ, Choi CH, Seo HB, Kim HJ, Park SG |
| 282 - 286 |
Electrochemical performance of a hybrid lithium-ion capacitor with a graphite anode preloaded from lithium bis(trifluoromethane)sulfonimide-based electrolyte
Decaux C, Lota G, Raymundo-Pinero E, Frackowiak E, Beguin F |
| 287 - 293 |
Ester based electrolyte with lithium bis(trifluoromethane sulfonyl) imide salt for electrochemical storage devices: Physicochemical and electrochemical characterization
Dahbi M, Ghamouss F, Tran-Van F, Lemordant D, Anouti M |
| 294 - 297 |
Non-aqueous electrochemical capacitor utilizing electrolytic redox reactions of bromide species in ionic liquid
Yamazaki S, Ito T, Yamagata M, Ishikawa M |
| 298 - 304 |
Electrochemical characterization of a supercapacitor flow cell for power production from salinity gradients
Sales BB, Liu F, Schaetzle O, Buisman CJN, Hamelers HVM |
| 305 - 315 |
Assessment of lithium-ion capacitor for using in battery electric vehicle and hybrid electric vehicle applications
Omar N, Daowd M, Hegazy O, Al Sakka M, Coosemans T, Van den Bossche P, Van Mierlo J |
| 316 - 316 |
Special section: TOWARD LIGHTWEIGHT, FLEXIBLE, AND SELF-SUSTAINED ION-BASED DEVICES Foreword
Pereira L |
| 317 - 322 |
Composition ratio-dependent structural evolution of SiO2/poly(vinylidene fluoride-hexafluoropropylene)-coated poly(ethylene terephthalate) nonwoven composite separators for lithium-ion batteries
Jeong HS, Choi ES, Lee SY |
| 323 - 329 |
Facile fabrication of cuprous oxide nanocomposite anode films for flexible Li-ion batteries via thermal oxidation
Lamberti A, Destro M, Bianco S, Quaglio M, Chiodoni A, Pirri CF, Gerbaldi C |
| 330 - 338 |
Ionic mobility in ternary polymer electrolytes for lithium-ion batteries
Joost M, Kunze M, Jeong S, Schonhoff M, Winter M, Passerini S |
| 339 - 345 |
Synthesis and characterization of amorphous poly(ethylene oxide)/poly(trimethylene carbonate) polymer blend electrolytes
Rodrigues LC, Silva MM, Smith MJ |
| 346 - 351 |
High-voltage cell performance and thermal stability of nanoarchitectured polyimide gel polymer electrolyte-coated LiCoO2 cathode materials
Park JH, Cho JH, Kim JS, Shim EG, Lee SY |
| 352 - 359 |
Preparation and characterization of block copolymers containing multi-sulfonated unit for proton exchange membrane fuel cell
Seo DW, Lim YD, Lee SH, Hossain MA, Islam MM, Lee HC, Jang HH, Kim WG |
| 360 - 365 |
Anion conductive poly(arylene ether sulfone)s containing tetra-quaternary ammonium hydroxide on fluorenyl group for alkaline fuel cell application
Seo DW, Hossain MA, Lee DH, Lim YD, Lee SH, Lee HC, Hong TW, Kim WG |
