| 1 - 9 |
Thermal expansion and elastic moduli of electrolyte materials for high and intermediate temperature solid oxide fuel cell
Gao PP, Bolon A, Taneja M, Xie ZL, Orlovskaya N, Radovic M |
| 10 - 17 |
Improved performance of acid-base composite of phosphonic acid functionalized polysulfone and triazolyl functionalized polysulfone for PEM fuel cells
Yue BH, Zeng GB, Zhang YP, Tao S, Zhang XM, Yan LM |
| 18 - 25 |
Synthesis and improved electrochemical performance of LiMn2- xGdxO4 based cathodes
Ram P, Goren A, Ferdov S, Silva MM, Choudhary G, Singhal R, Costa CM, Sharma RK, Lanceros-Mendez S |
| 26 - 31 |
Study of the transport of alkali metal ions in a nonaqueous polymer electrolyte based on Nafion
Sanginov EA, Kayumov RR, Shmygleva LV, Lesnichaya VA, Karelin AI, Dobrovolsky YA |
| 32 - 37 |
High surface area TiO2 nanospheres as a high-rate anode material for aqueous aluminium-ion batteries
Kazazi M, Abdollahi P, Mirzaei-Moghadam M |
| 38 - 45 |
Electrical, mechanical and chemical behavior of Li1.2Zr1.9Sr0.1(PO4)(3)
Smith S, Thompson T, Sakamoto J, Allen JL, Baker DR, Wolfenstine J |
| 46 - 52 |
Playing with ionic liquids to uncover novel polymer electrolytes
Leones R, Sabadini RC, Esperanca JMSS, Pawlicka A, Silva MM |
| 53 - 59 |
Investigation of electrical properties of glassy AgGe1+xAs1-x(S-FCNT)(3) (x=0.4; 0.5; 0.6) at temperature range from 10 to 300 K
Kurochka KV, Melnikova NV |
| 60 - 66 |
Single ion conducting sodium ion batteries enabled by a sodium ion exchanged poly(bis(4-carbonyl benzene sulfonyl)imide-co-2,5-diamino benzesulfonic acid) polymer electrolyte
Pan QY, Li Z, Zhang WC, Zeng DL, Sun YB, Cheng HS |
| 67 - 72 |
Improved performance of Li-S battery with hybrid electrolyte by interface modification
Wang QS, Guo J, Wu T, Jin J, Yang JH, Wen ZY |
| 73 - 77 |
Investigation of Mg2+, Sc3+ and Zn2+ doping effects on densification and ionic conductivity of low-temperature sintered Li7La3Zr2O12 garnets
Jiang Y, Zhu XH, Qin SY, Ling ME, Zhu JL |
| 78 - 85 |
Redox activity of argyrodite Li6PS5Cl electrolyte in all-solid-state Li-ion battery: An XPS study
Auvergniot J, Cassel A, Foix D, Viallet V, Seznec V, Dedryvere R |
| 86 - 90 |
Peculiarities of ionic conduction in Li0.5-yNayLa0.5Nb2O6 system at high temperatures
Daugela S, Kezionis A, Salkus T, Orliukas AF, Belous AG, V'yunov OI, Kobylianska SD, Vasylechko LO |
| 91 - 96 |
Decomposition of La2NiO4 in Sm0.2Ce0.8O2-La2NiO4 composites for solid oxide fuel cell applications
Cetin D, Poizeau S, Pietras J, Gopalan S |
| 97 - 105 |
Comparative study of the cation permeability of protonic, anionic and ampholytic membranes
Knauth P, Pasquini L, Di Vona ML |
| 106 - 113 |
Nonlinear mechanical behaviour of Ba0.5Sr0.5Co0.8Fe0.2O3 (- delta) and in situ stress dependent synchrotron X-ray diffraction study
Geiger PT, Clemens O, Khansur NH, Hinterstein M, Sahini MG, Grande T, Tung P, Daniels JE, Webber KG |
| 114 - 119 |
All-solid-state secondary lithium battery using solid polymer electrolyte and anthraquinone cathode
Li WY, Chen L, Sun YH, Wang CX, Wang YG, Xia YY |
| 120 - 127 |
Potential hysteresis between charge and discharge reactions in Li1.2Ni0.13Mn0.54Co0.13O2 for lithium ion batteries
Konishi H, Hirano T, Takamatsu D, Gunji A, Feng XL, Furutsuki S, Takahashi S, Terada S |
| 128 - 134 |
SnO2 doped MoO3 nanofibers and their carbon monoxide gas sensing performances
Nadimicherla R, Li HY, Tian K, Guo X |
| 135 - 139 |
Electrochemical property of solid solutions formed in (La,Sr)(Co,Fe)O3-delta cathode/doped-CeO2 interlayer/Y2O3-ZrO2 electrolyte system during operation of solid oxide fuel cells
Matsui T, Li SQ, Muroyama H, Kishida K, Inui H, Eguchi K |
| 140 - 148 |
Effect of Nb5+ content on the high temperature properties of the mixed conductors system La1-xBaxCo1-yNbyO3-delta with 0.6 <= x <= 1.0 and 0 <= y <= 0.4
Setevich C, Toscani L, Larrondo S, Prado F, Caneiro A |
| 149 - 156 |
Hierarchical microspheres and nanoscale particles: Effects of morphology on electrochemical performance of Li1.2Mn0.54Ni0.13Co0.13O2 cathode material for lithium-ion batteries
Wu F, Wang H, Bai Y, Li Y, Wu C, Chen GH, Liu L, Ni Q, Wang XQ, Zhou J |
| 157 - 164 |
Sulfonated poly(arylene ether sulfone) polymers containing 3,4-difluoro-phenyl moiety as proton exchange membranes
Chen RM, Li G, Yang SL, Xiong MY, Jin JH |
| 165 - 168 |
Al conductive hybrid solid polymer electrolyte
Song SF, Kotobuki M, Zheng F, Li QB, Xu CH, Wang Y, Li WDZ, Hu N, Lu L |
| 169 - 174 |
Hexafluorophosphate anion intercalation into graphite electrode from methyl propionate
Fan H, Qi L, Wang HY |
| 175 - 181 |
The design and study of new Li-ion full cells of LiCo2/3Ni1/6Mn1/6O2 positive electrode paired with MnSn2 and Li4Ti5O12 negative electrodes
Mahmoud A, Saadoune I, Lippens PE, Chamas M, Hakkou R, Amarilla JM |
| 182 - 186 |
Copper dynamics and structural-transformation in noble metal chalcogenides CuAgS probed by Cu-63 NMR
Shi CL, Xi XK, Hou ZP, Liu EK, Wang WH, Chen JL, Wu GH |
| 187 - 194 |
Remarkable impact of grains boundaries on the chemical delithiation kinetics of LiFePO4
Lachal M, Bouchet R, Boulineau A, Surble S, Rossignol C, Alloin F, Obbade S |
| 195 - 204 |
Solid polymer electrolyte dye-sensitized solar cells with organized mesoporous TiO2 interfacial layer templated by poly(vinyl alcohol)poly(methyl methacrylate) comb copolymer
Kim DH, Park MS, Kim DJ, Cho HH, Kim JH |
| 205 - 211 |
Structural, thermal behavior, vibrational study and superprotonic behavior of a new rubidium dihydrogen phosphate-arsenate: RbH2(PO4)0.65(ASO(4))0.35
Chouchene S, Jaouadi K, Mhiri T, Zouari N |
| 212 - 218 |
Thermomigration kinetics and a novel method to determine the chemical diffusivity of a mixed conductor
Lee T, Yoo HI |
