| 1273 - 1277 |
Glass formation and electrical conductivity studies of melt quenched and mechanically milled 50Li(2)O :(50-x)P2O5 : xB(2)O(3)
Money BK, Hariharan K |
| 1278 - 1281 |
Electrical properties and microstructure of glassy-crystalline Ag+-ion conducting composites synthesized by a high-pressure method
Wasiucionek M, Foltyn M, Garbarczyk JE, Nowinski JL, Gierlotka S, Pasz B |
| 1282 - 1285 |
Electrical and electrochemical properties of the 70Li(2)S center dot(30-x)P2S5 center dot xP(2)O(5) glass-ceramic electrolytes
Minami K, Hayashi A, Tatsumisago M |
| 1286 - 1290 |
Oxygen pump method for leak rate testing of SiO2-B2O3-Al2O3-BaO-PbO2-ZnO glass sealant for SOFC
Lue Z, Wang RF, Huang XQ, Liu CQ, Wei B, Su WH |
| 1291 - 1295 |
Effect of substitution of Si with V and Mo on ionic conductivity of Na5YS4O12-type glass-ceramics
Okura T, Takahashi T, Monma H, Yamashita K |
| 1296 - 1299 |
Polymer electrolyte membranes derived from modified poly (phthalazinone ether ketone) for fuel cell applications
Zhang HW, Zhou ZT |
| 1300 - 1304 |
Synthesis of highly ordered and worm-like mesoporous TiO2 assisted by tri-block copolymer
Sung CC, Fung KZ, Hung IM, Hon MH |
| 1305 - 1309 |
Effects of salt 9,10-anthraquinone-2-sulfonic acid sodium on the conductivity of polypyrrole
Huang YM, Zhou FF, Deng Y, Zhai BG |
| 1310 - 1313 |
Temperature dependent ionic transport properties in composite solid polymer electrolytes
Wang XL, Fan LZ, Xu ZH, Lin YH, Nan CW |
| 1314 - 1319 |
SOFC cathode/YSZ - Non-stationary TPB effects
Nielsen J, Jacobsen T |
| 1320 - 1324 |
Effect of grain boundaries on the formation of oxide scale in Fe-Cr alloy for SOFCs
Horita T, Kishimoto H, Yamaji K, Xiong YP, Sakai N, Bri'to ME, Yokokawa H |
| 1325 - 1328 |
Microstructural effects on the electrical properties of grain boundary Fe-doped LSGM
Gomes E, Marques FMB, Figueiredo FM |
| 1329 - 1332 |
The enhanced electronic transference number at the grain boundaries in Sr-doped LaGaO3
Park HJ, Kim S |
| 1333 - 1337 |
Interfacial modification for high-power solid-state lithium batteries
Takada K, Ohta N, Zhang LQ, Fukuda K, Sakaguchi I, Ma R, Osada M, Sasaki T |
| 1338 - 1342 |
Interface reaction and cation transport behavior between perovskite oxides of La1-xSrCoO3 and La0.8Sr0.2FeO3
Kishimoto H, Sakai N, Horita T, Yamaji K, Brito ME, Yokokawa H |
| 1343 - 1346 |
Anomalous transport property at surface and interface of metal/rare earth doped ceria
Kishimoto H, Sakai N, Yamaji K, Horita T, Brito ME, Yokokawa H, Amezawa K, Uchitnoto Y |
| 1347 - 1350 |
Remote control of the activity of a Pt catalyst supported on a mixed ionic electronic conducting membrane
Poulidi D, Anderson C, Metcalfe IS |
| 1351 - 1353 |
Permeation and oxygen exchange of Ln(2)Ni(0.8)Cu(0.2)O(4)-materials (Ln = La, Pr, Nd)
Ziesche S, Jurk R, Trofimenko N, Kusnezoff M |
| 1354 - 1359 |
Fabrication and characteristics of planar-type methane reformer using ceria-based oxygen permeable membrane
Takamura H, Ogawa M, Suehiro K, Takahashi H, Okada M |
| 1360 - 1366 |
Manufacturing of new nano-s microporous membranes consisting ructured ceramic-metallic composite Of ZrO2, Al2O3, TiO2 and stainless steel
Van Gestel T, Sebold D, Meulenberg WA, Bram M, Buchkremer HP |
| 1367 - 1371 |
Defect chemistry and oxygen permeation property of Pr2M0.75Cu0.25O4 oxide doped with Ga
Ishihara T, Nakashima K, Okada S, Enoki M, Matsumoto H |
| 1372 - 1376 |
Zirconia as a high temperature oxygen-permeating membrane: The effect of GDC and LaCrO3 surface coating
Lee JM, Choi GM |
| 1377 - 1381 |
Preparation of oxygen evolution layer/La0.6Ca0.4CoO3 dense membrane/porous support asymmetric structure for high-performance oxygen permeation
Watanabe K, Yuasa M, Kida T, Shimanoe K, Teraoka Y, Yamazoe N |
| 1382 - 1386 |
Effects of hydrogen treatment on the surface microstructure and oxygen permeability of La0.7Sr0.3Ga0.3Fe0.7O3-delta membrane
Zhan MC, Ren H, Tian TF, Wang WD, Chen CS |
| 1387 - 1390 |
Synthesis of ZnS/dravite composite and its photocatalytic activity on degradation of methylene blue
Li JH, Lu AH, Liu F, Fan LZ |
| 1391 - 1395 |
Electrochemical promotion of the CO2 hydrogenation on Pd/YSZ and Pd/beta''-Al2O3 catalyst-electrodes
Bebelis S, Karasali H, Vayenas CG |
| 1396 - 1400 |
Catalytic combustion of toluene over a Sr and Fe substituted LaCoO3 perovskite
Li N, Boreave A, Deloume JP, Gaillard F |
| 1401 - 1404 |
Propene partial oxidation over Au-Ag Alloy and Ag catalysts using electrochemical oxygen
Zemichael FW, Al-Musa A, Cumming IW, Hellgardt K |
| 1405 - 1408 |
Microstructural analysis of catalyst/catalyst support interfaces of PEFC electrocatalysts
Chou JT, Sasaki K |
| 1409 - 1412 |
Modification research of sulfonated PEEK membranes used in DMFC
Zhang HW, Fan XH, Zhang J, Zhou ZT |
| 1413 - 1416 |
Ionic conductivity in lanthanoid ion-doped BaCeLnO(3) electrolytes
Kikuchi J, Koga S, Kishi K, Saito M, Kuwano J |
| 1417 - 1421 |
Solid state electrochemistry of direct carbon/air fuel cells
Jain SL, Nabae Y, Lakeman BJ, Pointon KD, Irvine JTS |
| 1422 - 1426 |
Electrochemical performance and degradation of (La0.6Sr0.4)(0.99)CoO3-delta as porous SOFC-cathode
Hjalmarsson P, Sogaard M, Mogensen M |
| 1427 - 1431 |
Poisoning of SOFC anodes by various fuel impurities
Haga K, Adachi S, Shiratori Y, Itoh K, Sasaki K |
| 1432 - 1435 |
Electrical conductivity and structure of solid solutions formed in the La0.8Sr0.2MnO3-La0.95Ni0.6Fe0.4O3 system
Konysheva E, Irvine JTS, Besmehn A |
| 1436 - 1441 |
Effects of trace elements at the Ni/ScYSZ interface in a model solid oxide fuel cell anode
Schmidt MS, Hansen KV, Norrman K, Mogensen M |
| 1442 - 1445 |
Structure, local environment, and ionic conduction in scandia stabilized zirconia
Huang H, Hsieh CH, Kim N, Stebbins J, Pninz F |
| 1446 - 1449 |
Pt-free intermediate-temperature fuel cells
Heo P, Shibata H, Nagao M, Hibino T |
| 1450 - 1453 |
K2NiF4 type La2-xSrxCo0.8Ni0.2O4+delta as the cathodes for solid oxide fuel cells
Zhao F, Wang XF, Wang ZY, Peng RR, Xia CR |
| 1454 - 1458 |
Advanced planar SOFC stack with improved thermo-mechanical reliability and electrochemical performance
Lee HW, Kim SM, Kim H, Jung HY, Jung HG, Lee JH, Song H, Kim HR, Son JW |
| 1459 - 1464 |
Mechanism of Cr deposition and its application in the development of Cr-tolerant cathodes of solid oxide fuel cells
Jiang SP, Zhen YD |
| 1465 - 1469 |
Cathodic behavior of La0.8Sr0.2Co1-xMnxO3-delta perovskite oxide on YSZ electrolyte for intermediate temperature-operating solid oxide fuel cells
Lee C, Baek SW, Bae J |
| 1470 - 1473 |
Preparation and performance of Pr0.7Sr0.3Co1-yCuyO3-delta as cathode material of IT-SOFCs
Zhu CJ, Liu XM, Xu D, Yan DT, Wang DY, Su WH |
| 1474 - 1477 |
Self-supported LaGaO3-based honeycomb-type solid oxide fuel cell with high volumetric power density
Zhong H, Matsumoto H, Ishihara T, Toniyama A |
| 1478 - 1482 |
Sulphur tolerant shift reaction catalysts for nickel-based SOFC anode
He HP, Wood A, Steedman D, Tilleman M |
| 1483 - 1485 |
Microstructure development of plasma-sprayed yttria-stabilized zirconia and its effect on electrical conductivity
Xing YZ, Li CX, Li CJ, Long HG, Xie YX |
| 1486 - 1489 |
Intermediate-temperature solid oxide fuel cells using perovskite-type oxide based on barium cerate
Matsumoto H, Nomura I, Okada S, Ishihara T |
| 1490 - 1496 |
Performance analysis of cobalt-based cathode materials for solid oxide fuel cell
Kim JH, Baek SW, Lee C, Park K, Bae J |
| 1497 - 1500 |
Solid oxide fuel cell membranes supported by nickel grid anode
Rey-Mermet S, Muralt P |
| 1501 - 1504 |
Electrically conductive diffusion barrier layers for metal-supported SOFC
Brandner M, Bram M, Froitzheim J, Buchkremer HP, Stover D |
| 1505 - 1508 |
Sm0.5Sr0.5CoO3-delta-BaCe0.8Sm0.2O3-delta composite cathodes for proton-conducting solid oxide fuel cells
Wu TZ, Peng RR, Xia CR |
| 1509 - 1515 |
From powder properties to fuel cell performance - A holistic approach for SOFC cathode development
Tietz F, Mai A, Stover D |
| 1516 - 1520 |
The effect of nickel oxide microstructure on the performance of Ni-YSZ anode-supported SOFCs
Guo WM, Liu J |
| 1521 - 1525 |
Electricity production from wastewater treatment via a novel biogas-SOFC aided process
Yentekakis IV, Papadam T, Goula G |
| 1526 - 1530 |
Catalytic methane decomposition on nickel-based model anodes of SOFCs fabricated on various oxide ion conductors
Yamaji K, Kishimoto H, Xiong YM, Horita T, Sakai N, Brito ME, Yokokawa H |
| 1531 - 1534 |
Preparation and conductivity of Yb2O3-Y2O3 and Gd2O3-Y2O3 co-doped zirconia ceramics
Kan YM, Li SL, Wang PL, Zhang GJ, Van der Biest O, Vleugels J |
| 1535 - 1539 |
Investigation of anode-supported SOFC with cobalt-containing cathode and GDC interlayer
Jung HG, Sun YK, Jung HY, Park JS, Kim HR, Kim GH, Lee HW, Lee JH |
| 1540 - 1544 |
Atomic layer deposition of LSM cathodes for solid oxide fuel cells
Holme TP, Lee C, Prinz FB |
| 1545 - 1548 |
Fabrication and properties of anode-supported solid oxide fuel cell
Han MF, Yin HY, Miao WT, Zhou S |
| 1549 - 1552 |
Direct carbon conversion in a helium fluidized bed fuel cell
Li S, Lee AC, Mitchell RE, Gur TM |
| 1553 - 1556 |
Effect of firing temperature on the performance of LSM-SDC cathodes prepared with an ion-impregnation method
Zhang L, Zhao F, Peng RR, Xia CR |
| 1557 - 1561 |
Synthesis and electrophysical properties of (1-x)Ce0.8Gd0.2O2-delta+xTiO(2) (x=0-0.06) solid-state solutions
Pikalova EY, Maragou VI, Demin AK, Murashkina AA, Tsiakaras PE |
| 1562 - 1566 |
Ce-substituted LSCM as new anode material for SOFC operating in dry methane
Lay E, Gauthier G, Rosini S, Savaniu C, Irvine JTS |
| 1567 - 1569 |
Chemical stability of La10Si6O27 and its application to electrolytes for solid oxide fuel cells
Nakao T, Mineshige A, Kobune M, Yazawa T, Yoshioka H |
| 1570 - 1574 |
Characteristics of ABO(3) and A(2)BO(4) (A=Sm, Sr; B=Co, Fe, Ni) samarium oxide system as cathode materials for intermediate temperature-operating solid oxide fuel cell
Baek SW, Kim JH, Bae J |
| 1575 - 1578 |
Performance of tubular solid oxide fuel cell assembled with plasma-sprayed Sc2O3-ZrO2 electrolyte
Li CJ, Li CX, Long HG, Xing YZ, Yang GJ |
| 1579 - 1587 |
Analysis of processes in planar solid oxide fuel cells
Hu Q, Wang SR, Wen TL |
| 1588 - 1592 |
Synthesis and electrical properties of Co-doped Y0.08Sr0.92TiO3-delta as a potential SOFC anode
Li X, Zhao HL, Gao F, Zhu ZM, Chen N, Shen W |
| 1593 - 1596 |
Improvement of anode-supported solid oxide fuel cells
Wang ZR, Qian JQ, Wang SR, Cao JD, Wen TL |
| 1597 - 1601 |
Electrochemical performance of (Bi2O3)(1-x)(Er2O3)(x)-Ag composite material for intermediate temperature solid oxide fuel cell cathode
Li JL, Wang SR, Liu RZ, Wang ZR, Qian JQ |
| 1602 - 1605 |
The effect of grain size on the low-temperature electrical conductivity of doped CeO2
Kang YJ, Park HJ, Choi GM |
| 1606 - 1610 |
Performance and stability of SOFC anode prepared by co-precipitation
Mosch S, Trofimenko N, Kusnezoff M, Betz T, Kellner M |
| 1611 - 1614 |
Water transport properties of crosslinked-PTFE based electrolyte membranes
Sawada S, Yamaki T, Nishimura H, Asano M, Suzuki A, Terai T, Maekawa Y |
| 1615 - 1619 |
The influence of Fe, Cu, Al-doping on the crystal structure, thermal and electrical properties of calcium titanate
Murashkina AA, Demina AN, Demin AK, Maragou VI, Tsiakaras PE |
| 1620 - 1624 |
The effect of Fe doping on the properties of SOFC electrolyte YSZ
Gao HB, Liu J, Chen HY, Li S, He TM, Ji Y, Zhang JD |
| 1625 - 1627 |
New type of sulfur dioxide gas sensor based on trivalent Al3+ ion conducting solid electrolyte
Inaba Y, Tamura S, Imanaka N |
| 1628 - 1631 |
Perovskite related electrode materials with enhanced NO sensitivity for mixed potential sensors
Zosel J, Franke D, Ahlborn K, Gerlach F, Vashook V, Guth U |
| 1632 - 1635 |
Structural and electric properties of barium strontium titanate based ceramic composite as a humidity sensor
Ke SM, Huang HT, Fan HQ, Chan HLW, Zhou LM |
| 1636 - 1640 |
Chlorine sensor combining NASICON with CaMg3(SiO3)(4)-doped CdS electrode
Liang XS, Liu FM, Zhong TG, Wang B, Quan BF, Lu GY |
| 1641 - 1644 |
Solid-state amperometric CH4 sensor using, LaGaO3-based electrolyte
Bi ZH, Matsumoto H, Ishihara T |
| 1645 - 1647 |
Influence of the sensitive zeolite material on the characteristics of a potentiometric hydrocarbon gas sensor
Dubbe A |
| 1648 - 1651 |
Gas sensing property of the electrochemical cell with a multilayer catalytic electrode
Hamamoto K, Fujishiro Y, Awano M |
| 1652 - 1654 |
Development of zirconia-magnesia/zirconia-yttria composite solid electrolytes
Caproni E, Carvalho FMS, Muccillo R |
| 1655 - 1661 |
De-NOx reactor and NOx sensor using In3+-doped SnP2O7 with PtRhBa/C electrode
Nagao M, Yoshii T, Namekata Y, Teranishi S, Sano M, Tomita A, Hibino T |
| 1662 - 1665 |
A CO2 gas sensor based upon composite Nasicon/Sr-beta-Al2O3 bielectrolyte
Wang L, Zhou H, Liu K, Wu Y, Dai L, Kumar RV |
| 1666 - 1669 |
Synthesis and conductivities of the gamet-related Li ion conductors, Li(5)Ln(3)Sb(2)O(12) (Ln=La, Pr, Nd, Sm, Eu)
Percival J, Kendrick E, Slater PR |
| 1670 - 1678 |
The influence of phase segregation on properties of semicrystalline PEO: LiTFSI electrolytes
Marzantowicz M, Krok F, Dygas JR, Florjanczyk Z, Zygadlo-Monikowska E |
| 1679 - 1682 |
Synthesis and characteristics of Li3V2(PO4)(3) as cathode materials for lithium-ion batteries
Zhu XJ, Liu YX, Geng LM, Chen LB, Liu HX, Cao MH |
| 1683 - 1687 |
Ionic and electronic transport in single crystalline LiFePO4 grown by optical floating zone technique
Amin R, Maier J, Balaya P, Chen DP, Lin CT |
| 1688 - 1692 |
Electrode properties of amorphous material of Li-Co-V-O system prepared by chemical lithium insertion in CoV3O8
Ichikawa SN, Hibino M, Yao T |
| 1693 - 1696 |
Synthesis and structural characterisation of the Li ion conducting garnet-related systems, Li(6)ALa(2)Nb(2)O(12) (A = Ca, Sr)
Percival J, Apperley D, Slater PR |
| 1697 - 1701 |
Research on sodium sulfur battery for energy storage
Wen ZY, Cao JD, Gu ZH, Xu XH, Zhang FL, Lin ZX |
| 1702 - 1705 |
Electrochemical performance of all-solid-state lithium batteries with mechanochemically activated Li2S-Cu composite electrodes
Hayashi A, Ohtsubo R, Tatsumisago M |
| 1706 - 1709 |
Rate capability of lithium intercalation into nano-porous graphitized carbons
Yamada H, Watanabe Y, Moriguchi I, Kudo T |
| 1710 - 1713 |
Characterization and electrochemical properties of Li+ ion-exchanged products of hollandite-type K-y(Mn1-xCox)O-2 for rechargeable lithium battery electrodes
Kadoma Y, Oshitari S, Ui K, Kumagai N |
| 1714 - 1716 |
New lithium ion conductor, thio-LISICON lithium zirconium sulfide system
Liu ZQ, Huang FQ, Yang JH, Wang BF, Sun JK |
| 1717 - 1720 |
Electrochemical absorption effect of BF4 anion salt on SEI layer formation
Jung C |
| 1721 - 1724 |
Nanoscale single-crystal vanadium oxides with layered structure by electrospinning and hydrothermal methods
Ban CM, Whittingham MS |
| 1725 - 1730 |
Electrochemical behavior of the composite anodes consisting of carbonaceous materials and lithium transition-metal nitrides for lithium-ion batteries
Hanai K, Liu Y, Matsumura T, Imanishi N, Hirano A, Takeda Y |
| 1731 - 1735 |
Electrochemical approaches to thermodynamic characterization of ternary alkali compounds: A review
Nafee H |
| 1736 - 1739 |
Improved electrochemical performance of LiFePO4/C for lithium-ion atteries with two kinds of carbon sources
Lai CY, Xu QJ, Ge HH, Zhou GD, Xie JY |
| 1740 - 1744 |
Conductivity and NMR study of composite solid electrolytes based on lithium perchlorate
Ulihin AS, Slobodyuk AB, Uvarov NF, Kharlamova OA, Isupov VP, Kavun V |
| 1745 - 1749 |
Surface chemistry study of LiCoO2 coated with alumina
Kosova N, Devyatkina E, Slobodyuk A, Kaichev V |
| 1750 - 1753 |
Electrochemical properties of carbon-coated Li[Ni1/3Co1/3Mn1/3]O-2 cathode material for lithium-ion batteries
Lin B, Wen ZY, Han JD, Wu XW |
| 1754 - 1757 |
Preparation and properties of LiNi0.5Mn0.5O2 thin films by spin-coating for lithium micro-batteries
Lai SJ, Hu C, Yanxi LX, Luo DB, Cao MH, Yu ZY, Liu HX |
| 1758 - 1762 |
Is it possible to prepare olivine-type LiFeSiO4? A joint computational and experimental investigation
de Dompablo MEAY, Gallardo-Amores JM, Garcia-Martinez J, Moran E, Tarascon JM, Armand M |
| 1763 - 1767 |
Preparation and characterization of LiV3O8 cathode material for lithium secondary batteries through an EDTA-sol-gel method
Zhou Y, Yue HF, Zhang XY, Deng XY |
| 1768 - 1771 |
Synthesis and characterization of LiFePO4/(C+Fe2P) composite cathodes
Liu H, Xie JY, Wang K |
| 1772 - 1775 |
Enhanced ionic conductivities in composite polymer electrolytes by using succinonitrile as a plasticizer
Fan LZ, Wang XL, Long F, Wang X |
| 1776 - 1778 |
Lithium ionic conductivity in LiI-Li2S-La2O2Sm (m=1, 2) composite electrolyte by solid state reaction
Cao ZZ, Liu ZQ, Sun JK, Huang FQ, Yang JH, Wang YM |
| 1779 - 1782 |
Synthesis and ionic conductivity of Mg-doped Li2TIO3
Wu XW, Wen ZY, Xu XG, Han JD |
| 1783 - 1787 |
High temperature X-ray diffractive study of spinel-type lithium manganese oxides
Komaba S, Ogata A, Shimizu T, Ikemoto S |
| 1788 - 1793 |
Influence of different morphologies on electrochemical performance of spinel LiMn2O4
Zhu HL, Chen ZY, Ji S, Linkov V |
| 1794 - 1799 |
The effects of TiO2 coating on the electrochemical performance of Li[Li0.2Mn0.54Ni0.13CO0.13]O-2 cathode material for lithium-ion battery
Zheng JM, Li J, Zhang ZR, Guo XJ, Yang Y |
| 1800 - 1805 |
High rate electrode materials for lithium ion batteries
Wen ZY, Huang SH, Yang XL, Lin B |
| 1806 - 1809 |
Lithium ionic diffusion in lithium cobalt oxides prepared by mechanical milling
Nakamura K, Hirano H, Nishioka D, Michihiro Y, Moniga T |
| 1810 - 1815 |
Influence of carbon sources on electrochemical performances of LiFePO4/C composites
Chen ZY, Zhu HL, Ji S, Fakir R, Linkov V |
| 1816 - 1821 |
Investigation of the kinetic mechanism in overcharge process for Li-ion battery
Belov D, Yang MH |
