Solid State Ionics

Solid State Ionics, Vol.275 Entire volume, number list

ISSN: 0167-2738 (Print)

In this Issue (25 articles)

1 - 1	SSPC-17 Conference Proceedings SSI Special Issue Preface Kim BK, Yoo HI
2 - 8	Size and shape of oxygen vacancies and protons in acceptor-doped barium zirconate Jedvik E, Lindman A, Benediktsson MP, Wahnstrom G
9 - 13	H/D isotope effects in high temperature proton conductors Bonanos N, Huijser A, Poulsen FW
14 - 18	Crystallization process of perovskite type oxide thin films deposited by PLD without substrate heating: Influence of sputtering rate and densification-driven high tensile strain Sata N, Shibata Y, Iguchi F, Yugami H
19 - 22	Proton conduction at BaO-terminated (001) BaZrO3 surface using density functional theory Kim JS, Yang JH, Kim BK, Kim YC
23 - 28	Effect of NiO sintering-aid on hydration kinetics and defect-chemical parameters of BaZr0.8Y0.2O3- (Delta) Kim E, Yamazaki Y, Haile SM, Yoo HI
29 - 34	Proton transport properties of the RE3Ga5MO14 (RE = La, Nd and M = Si, Ti, Sn) langasite family of oxides Bjorheim TS, Haugsrud R
35 - 38	Incorporation and conduction of proton in SrCe0.9 (-) xZrxY0.1O3 (-) (delta) Okuyama Y, Isa K, Lee YS, Sakai T, Matsumoto H
39 - 42	Synthesis and characterization of CaZr0.95In0.05O3 (-) (delta)-BaCe0.9Y0.1 (-) (theta) composite ceramics Han JD, Wen ZY, Zhang JC, Zhang L, Liu H, Ma GQ, Chi XW
43 - 46	Hydrogen solubility and diffusivity in a barium cerate protonic conductor using tritium imaging plate technique Yamashita K, Otsuka T, Hashizume K
47 - 52	The influence of fluorine doping on short-range structure in brownmillerite Ba1.95In2O4.9F0.1 Tarasova N, Animitsa I, Denisova T, Nevmyvako R
53 - 57	Protonic transport in oxyfluorides Ba2InO3F and Ba3In2O5F2 with Ruddlesden-Popper structure Tarasova N, Animitsa I
58 - 61	Crystal structure and proton conductivity in highly oxygen-deficient Ba-1 (-) La-x(x)(In,Zr,Sn)O-3 (- delta) perovskites Swierczek K, Zajac W, Klimkowicz A, Zheng K, Malikova N, Dabrowski B
62 - 65	Improving thermal stability and its effects on proton mobility in proton-conducting phosphate glasses prepared by the electrochemical substitution of sodium ions with protons Yamaguchi T, Ishiyama T, Sakuragi K, Nishii J, Yamashita T, Kawazoe H, Omata T
66 - 70	Measuring water hydrogen bonding distributions in proton exchange membranes using linear Fourier Transform Infrared spectroscopy Smedley SB, Chang Y, Bae CS, Hickner MA
71 - 74	Comparison of conductivity measurement systems using the example of nafion and anion exchange membrane Germer W, Harms C, Tullius V, Leppin J, Dyck A
75 - 79	Study of the influence of key test parameters on the performance of a PEMFC stack Harms C, Kohrmann F, Dyck A
80 - 85	Radel-based membranes with pyridine and imidazole side groups for high temperature polymer electrolyte fuel cells Hink S, Duong NMH, Henkensmeier D, Kim JY, Jang JH, Kim HJ, Han J, Nam SW
86 - 91	Poly(vinyl)alcohol/1-butyl-3-methylimidazolium hydrogen sulfate solid polymer electrolyte: Structural and electrical studies Pundir SS, Mishra K, Rai DK
92 - 96	Synthesis of high molecular weight sulfonated poly(arylene ether sulfone) copolymer without azeotropic reaction Lee SY, Kwon Y, Kim BH, Chae J, Jang JH, Henkensmeier D, Yoo SJ, Kim JY, Kim HJ
97 - 100	Elaboration of intermediate size planar proton conducting solid oxide cell by wet chemical routes: A way to industrialization Marrony M, Ancelin M, Lefevre G, Dailly J
101 - 105	Reversible solid oxide fuel cells (R-SOFCs) with chemically stable proton-conducting oxides Bi L, Boulfrad S, Traversa E
106 - 109	Ce(Mn,Fe)O-2-(La,Sr)(Fe,Mn)O-3 composite as an active cathode for electrochemical reduction of CO2 in proton conducting solid oxide cells Shin TH, Myung JH, Naeem KM, Savaniu C, Irvine JTS
110 - 116	Ammonia synthesis at atmospheric pressure in a BaCe0.2Zr0.7Y0.1O2.9 solid electrolyte cell Vasileiou E, Kyriakou V, Garagounis I, Vourros A, Stoukides M
117 - 121	Low-temperature fabrication of an anode-supported SOFC with a proton-conducting electrolyte based on lanthanum scandate using a PLD method Iguchi F, Yamane T, Kato H, Yugami H