| 1 - 10 |
Improving the electrochemical performances of Li-rich Li1.20Ni0.13Co0.13Mn0.54O2 through a cooperative doping of Na+ and PO43- with Na3PO4
Liu Y, Ning D, Zheng LR, Zhang QH, Gu L, Gao R, Zhang JC, Franz A, Schumacher G, Liu XF |
| 11 - 20 |
Influence of platinum group metal-free catalyst synthesis on microbial fuel cell performance
Santoro C, Rojas-Carbonell S, Awais R, Gokhale R, Kodali M, Serov A, Artyushkova K, Atanassov P |
| 21 - 28 |
Enhancing the electrochemical performance of Li-rich layered oxide Li1.13Ni0.3Mn0.57O2 via WO3 doping and accompanying spontaneous surface phase formation
Huang JJ, Liu HD, Hu T, Meng YS, Luo J |
| 29 - 36 |
Boron-doped carbon nanotubes as metal-free electrocatalyst for dye-sensitized solar cells: Heteroatom doping level effect on tri-iodide reduction reaction
Yeh MH, Leu YA, Chiang WH, Li YS, Chen GL, Li TJ, Chang LY, Lin LY, Lin JJ, Ho KC |
| 37 - 42 |
Fe2P as a novel efficient catalyst promoter in Pd/C system for formic acid electro-oxidation in fuel cells reaction
Wang FL, Xue HG, Tian ZQ, Xing W, Feng LG |
| 43 - 52 |
Comparative study of imide-based Li salts as electrolyte additives for Li-ion batteries
Sharova V, Moretti A, Diemant T, Varzi A, Behm RJ, Passerini S |
| 53 - 58 |
Advantages in energy efficiency of flooded lead-acid batteries when using partial state of charge operation
Bungeler J, Cattaneo E, Riegel B, Sauer DU |
| 59 - 67 |
A flexible mesoporous Li4Ti5O12-rGO nanocomposite film as free-standing anode for high rate lithium ion batteries
Zhu KX, Gao HY, Hu GX |
| 68 - 76 |
Performance comparison of protonic and sodium phosphomolybdovanadate polyoxoanion catholytes within a chemically regenerative redox cathode polymer electrolyte fuel cell
Ward DB, Gunn NLO, Uwigena N, Davies TJ |
| 77 - 81 |
Catalyst evaluation for oxygen reduction reaction in concentrated phosphoric acid at elevated temperatures
Hu Y, Jiang YL, Jensen JO, Cleemann LN, Li QF |
| 82 - 92 |
Effect of Al substitution on the enhanced electrochemical performance and strong structure stability of Na3V2(PO4)(3)/C composite cathode for sodium-ion batteries
Chen YJ, Xu YL, Sun XF, Wang C |
| 93 - 101 |
Toward practical all-solid-state lithium-ion batteries with high energy density and safety: Comparative study for electrodes fabricated by dry- and slurry-mixing processes
Nam YJ, Oh DY, Jung SH, Jung YS |
| 102 - 105 |
Micro-sized organometallic compound of ferrocene as high-performance anode material for advanced lithium-ion batteries
Liu Z, Feng L, Su XR, Qin CY, Zhao K, Hu F, Zhou MJ, Xia YY |
| 106 - 117 |
Modeling the degradation mechanisms of C-6/LiFePO4 batteries
Li DJ, Danilov DL, Zwikirsch B, Fichtner M, Yang Y, Eichel RA, Notten PHL |
| 118 - 130 |
Remaining useful life assessment of lithium-ion batteries in implantable medical devices
Hu C, Ye H, Jain G, Schmidt C |
| 131 - 137 |
Mechanistic elucidation of thermal runaway in potassium-ion batteries
Adams RA, Varma A, Pol VG |
| 138 - 148 |
In-line monitoring of Li-ion battery electrode porosity and areal loading using active thermal scanning - modeling and initial experiment
Rupnowski P, Ulsh M, Sopori B, Green BG, Wood DL, Li JL, Sheng YP |
| 149 - 157 |
Hot topics in alkaline exchange membrane fuel cells
Serov A, Zenyuk IV, Arges CG, Chatenet M |
| 158 - 169 |
Review of cell performance in anion exchange membrane fuel cells
Dekel DR |
| 170 - 184 |
Anion exchange membrane fuel cells: Current status and remaining challenges
Gottesfeld S, Dekel DR, Page M, Bae C, Yan YS, Zelenay P, Kim YS |
| 185 - 190 |
Analysis of alkaline exchange membrane fuel cells performance at different operating conditions using DC and AC methods
Reshetenko T, Odgaard M, Schlueter D, Serov A |
| 191 - 204 |
Steady state and transient simulation of anion exchange membrane fuel cells
Dekel DR, Rasin IG, Page M, Brandon S |
| 205 - 213 |
Importance of balancing membrane and electrode water in anion exchange membrane fuel cells
Omasta TJ, Wang L, Peng X, Lewis CA, Varcoe JR, Mustain WE |
| 214 - 221 |
Synthesis and characterization of high performing Fe-N-C catalyst for oxygen reduction reaction (ORR) in Alkaline Exchange Membrane Fuel Cells
Hbssen MM, Artyushkova K, Atanassov P, Serov A |
| 222 - 232 |
Improved electrochemical performance of Fe-N-C catalysts through ionic liquid modification in alkaline media
Martinaiou I, Wolker T, Shahraei A, Zhang GR, Janssen A, Wagner S, Weidler N, Stark RW, Etzold BJM, Kramm UI |
| 233 - 243 |
Highly efficient transition metal and nitrogen co-doped carbide-derived carbon electrocatalysts for anion exchange membrane fuel cells
Ratso S, Kruusenberg I, Kaarik M, Kook M, Puust L, Saar R, Leis J, Tammeveski K |
| 244 - 254 |
Durability of template-free Fe-N-C foams for electrochemical oxygen reduction in alkaline solution
Mufundirwa A, Harrington GF, Smid B, Cunning BV, Sasaki K, Lyth SM |
| 255 - 264 |
3D-Graphene supports for palladium nanoparticles: Effect of micro/macropores on oxygen electroreduction in Anion Exchange Membrane Fuel Cells
Kabir S, Serov A, Atanassov P |
| 265 - 276 |
La and Al co-doped CaMnO3 perovskite oxides: From interplay of surface properties to anion exchange membrane fuel cell performance
Dzara MJ, Christ JM, Joghee P, Ngo C, Cadigan CA, Bender G, Richards RM, O'Hayre R, Pylypenko S |
| 277 - 290 |
Nanocarbon/oxide composite catalysts for bifunctional oxygen reduction and evolution in reversible alkaline fuel cells: A mini review
Chen MJ, Wang L, Yang HP, Zhao S, Xu H, Wu G |
| 291 - 299 |
Highly durable direct hydrazine hydrate anion exchange membrane fuel cell
Sakamoto T, Serov A, Masuda T, Kamakura M, Yoshimoto K, Omata T, Kishi H, Yamaguchi S, Hori A, Horiuchi Y, Terada T, Artyushkova K, Atanassov P, Tanaka H |
| 300 - 309 |
Influence of the concentration of borohydride towards hydrogen production and escape for borohydride oxidation reaction on Pt and Au electrodes - experimental and modelling insights
Olu PY, Bonnefont A, Braesch G, Martin V, Savinova ER, Chatenet M |
| 310 - 319 |
Electrochemical modification of nickel surfaces for efficient glycerol electrooxidation
Houache MSE, Cossar E, Ntais S, Baranova EA |
| 320 - 334 |
Methanol oxidation reaction on core-shell structured Ruthenium -Palladium nanoparticles: Relationship between structure and electrochemical behavior
Kubler M, Jurzinsky T, Ziegenbalg D, Cremers C |
| 335 - 344 |
Electrocatalysis of the Ethylene glycol oxidation reaction and in situ Fourier-transform infared study on PtMo/C electrocatalysts in alkaline and acid media
Pech-Rodriguez WJ, Calles-Arriaga C, Gonzalez-Quijano D, Vargas-Gutierrez G, Morais C, Napporn TW, Rodriguez-Varela FJ |
| 345 - 350 |
Electrocatalytic oxidation of meso-erythritol in anion-exchange membrane alkaline fuel cell on PdAg/CNT catalyst
Benipal N, Qi J, McSweeney RE, Liang CH, Li WZ |
| 351 - 360 |
The critical relation between chemical stability of cations and water in anion exchange membrane fuel cells environment
Dekel DR, Willdorf S, Ash U, Amar M, Pusara S, Dhara S, Srebnik S, Diesendruck CE |
| 361 - 366 |
A practical method for measuring the ion exchange capacity decrease of hydroxide exchange membranes during intrinsic degradation
Kreuer KD, Jannasch P |
| 367 - 372 |
Chemically durable polymer electrolytes for solid-state alkaline water electrolysis
Park EJ, Capuano CB, Ayers KE, Bae C |
| 373 - 386 |
Degradation of radiation grafted anion exchange membranes tethered with different amine functional groups via removal of vinylbenzyl trimethylammonium hydroxide
Espiritu R, Golding BT, Scott K, Mamlouk M |
| 387 - 396 |
Performance of polyethylene based radiation grafted anion exchange membrane with polystyrene-b-poly (ethylene/butylene)-b-polystyrene based ionomer using NiCo2O4 catalyst for water electrolysis
Gupta G, Scott K, Mamlouk M |
| 397 - 403 |
Phase separation and ion conductivity in the bulk and at the surface of anion exchange membranes with different ion exchange capacities at different humidities
Kimura T, Akiyama R, Miyatake K, Inukai J |
| 404 - 411 |
Recyclable cross-linked anion exchange membrane for alkaline fuel cell application
Hou JQ, Liu YZ, Ge QQ, Yang ZJ, Wu L, Xu TW |
| 412 - 420 |
Anion exchange composite membrane based on octa quaternary ammonium Polyhedral Oligomeric Silsesquioxane for alkaline fuel cells
Elumalai V, Sangeetha D |
| 421 - 432 |
Anion exchange membranes based on terminally crosslinked methyl morpholinium-functionalized poly(arylene ether sulfone)s
Kwon S, Rao AHN, Kim TH |
| 433 - 441 |
Exploring backbone-cation alkyl spacers for multi-cation side chain anion exchange membranes
Zhu L, Yu XD, Hickner MA |
| 442 - 451 |
Water permeation through anion exchange membranes
Luo XY, Wright A, Weissbach T, Holdcroft S |
