| 1 - 1 |
Special Issue: Proceedings of the 10(th) International Conference on Solid State Protonic Conductors (SSPC10) Montpellier, France, 24-28 September, 2000 - Preface
Roziere J, Jones D, Tillard M |
| 3 - 16 |
Solid state protonic conductors, present main applications and future prospects
Alberti G, Casciola M |
| 17 - 24 |
Toward solid-state switchable mirrors using a zirconium oxide proton conductor
Mercier VMM, van der Sluis P |
| 25 - 29 |
Electrochemical hydrogen pump using a high-temperature-type proton conductor: improvement of pumping capacity
Matsumoto H, Hamajima S, Iwahara H |
| 31 - 35 |
An improved method for the determination of the electrochemical active area of porous composite platinum electrodes
Sogaard M, Odgaard M, Skou EM |
| 37 - 45 |
Proton conducting polymer blends and hybrid organic inorganic materials
Lassegues JC, Grondin J, Hernandez M, Maree B |
| 47 - 51 |
Sulfonated polysulfone ionomer membranes for fuel cells
Lufrano F, Gatto I, Staiti P, Antonucci V, Passalacqua E |
| 53 - 60 |
Electrochemical parameters of sulfonated poly(ether ether sulfone) membranes in HCl solutions determined by impedance spectroscopy and membrane potential measurements
Benavente J, Canas A, Ariza MJ, Lozano AE, de Abajo J |
| 61 - 68 |
On the doping of sulfonated polybenzimidazole with strong bases
Roziere J, Jones DJ, Marrony M, Glipa X, Mula B |
| 69 - 78 |
A thermodynamic approach to proton conductivity in acid-doped polybenzimidazole
Bouchet R, Miller S, Duclot M, Souquet JL |
| 79 - 84 |
Cation hydration in hydrogelic polyacrylamide-phosphoric acid network: A study by Raman spectroscopy
da Costa AMA, Amado AM |
| 85 - 92 |
Proton mobility in oligomer-bound proton solvents: imidazole immobilization via flexible spacers
Schuster M, Meyer WH, Wegner G, Herz HG, Ise M, Schuster M, Kreuer KD, Maier J |
| 93 - 100 |
Molecular mobility and protonic conductivity studies in telechelics based on poly(ethylene oxide) capped with hydroxyl groups at both ends
Polizos G, Shilov VV, Pissis P |
| 101 - 107 |
Hybrid Nafion-silica membranes doped with heteropolyacids for application in direct methanol fuel cells
Staiti P, Arico AS, Baglio V, Lufrano F, Passalacqua E, Antonucci V |
| 109 - 118 |
Proton-conducting sol-gel hybrids containing heteropoly acids
Stangar UL, Groselj N, Orel B, Schmitz A, Colomban P |
| 119 - 126 |
Radiation-modified Nafion membranes for methanol fuel cells
Florjanczyk Z, Wielgus-Barry E, Poltarzewski Z |
| 127 - 133 |
Proton conductivity in siloxane and ormosil ionomers prepared using mild sulfonation methodologies
Slade RCT, Varcoe JR |
| 135 - 140 |
Proton conductivity of acid-impregnated mesoporous silica gels prepared using surfactants as a template
Matsuda A, Nono Y, Kanzaki T, Tadanaga K, Tatsumisago M, Minami T |
| 141 - 147 |
Enhanced connectivity in hybrid polymers
Carriere D, Barboux P, Chaput F, Spalla O, Boilot JP |
| 149 - 160 |
Proton exchange nanocomposite membranes based on 3-glycidoxypropyltrimethoxysilane, silicotungstic acid and alpha-zirconium phosphate hydrate
Park Y, Nagai M |
| 161 - 166 |
Comparison of structure and proton conductivity of phosphosilicate gels derived from several kinds of phosphorus-containing compounds
Matsuda A, Kanzaki T, Tatsumisago M, Minami T |
| 167 - 177 |
Proton conduction mechanism in M3H(XO4)(2) crystals: the trigonal asymmetric hydrogen bond model
Lechner RE |
| 179 - 184 |
High-temperature phase transitions in K3H(SO4)(2)
Chisholm CRI, Haile SM |
| 185 - 189 |
Proton (deuteron) conductivity in Cs1.5Li1.5H(SO4)(2) and Cs1.5Li1.5D(SO4)(2) single crystals
Merinov BV, Chisholm CRI, Boysen DA, Haile SM |
| 191 - 196 |
Ferroelastic domain structure and thermal behavior of some Me3H(XO4)(2) crystals in the vicinity of superprotonic phase transitions
Kirpichnikova L, Hilczer B, Polomska M, Szczesniak L, Pawlowski A |
| 197 - 204 |
The investigation of disordered phases in nanocomposite proton electrolytes based on MeHSO4 (Me = Rb, Cs, K)
Ponomareva VG, Lavrova GV |
| 205 - 210 |
Composite protonic electrolytes in the system (NH4)(3)H(SO4)(2)-SiO2
Ponomareva VG, Merinov BV, Dolbinina VV |
| 211 - 216 |
Influence of inter-chain correlations on proton ordering in MeHXO4 protonic conductors
Stasyuk I, Vorobyov O, Hilczer B |
| 217 - 224 |
Low-temperature behaviour of (NH4)(4)H-2(SeO4)(3) and (ND4)(4)D-2(SeO4)(3) superionic conductors
Pawlowski A, Hilczer B, Polomska M, Pietraszko A |
| 225 - 231 |
Conductivity study of a new protonic conductor Rb-1.12(NH4)(0.88)SO4 center dot Te(OH)(6)
Ktari L, Dammak M, Madani A, Mhiri T, Kolsi AW |
| 233 - 240 |
Protonic conduction and defect structures in Sr-doped LaPO4
Amezawa K, Maekawa H, Tomii Y, Yamamoto N |
| 241 - 247 |
Hydrogen insertion and protonic conductivity in lead phosphate Pb-3(PO4)(2)
Baranov AI, Duda VM, Jones DJ, Roziere J, Sinitsyn VV, Slade RCT |
| 249 - 255 |
Preparation, characterization and proton conductivity of titanium phosphate sulfophenylphosphonate
Alberti G, Costantino U, Casciola M, Ferroni S, Massinelli L, Staiti P |
| 257 - 260 |
Electrical conductivity of transition metal containing crystalline zirconium phosphate materials
Szirtes L, Megyeri J, Kuzmann E, Klencsar Z |
| 261 - 264 |
Cation mobility in acid zirconium and tantalum phosphates and ion-exchange products (NaXH1-XTa(PO4)(2) center dot nH(2)O and NaYH2-YZr(PO4)(2) center dot nH(2)O)
Tarnopolsky VA, Stenina IA, Yaroslavtsev AB |
| 265 - 274 |
Oxide-based protonic conductors: point defects and transport properties
Bonanos N |
| 275 - 294 |
Structural phase transitions, oxygen vacancy ordering and protonation in doped BaCeO3: results from time-of-flight neutron powder diffraction investigations
Knight KS |
| 295 - 306 |
Proton conducting alkaline earth zirconates and titanates for high drain electrochemical applications
Kreuer KD, Adams S, Munch W, Fuchs A, Klock U, Maier J |
| 307 - 313 |
Investigations into Sr3CaZr0.5Ta1.5O8.75, a novel proton conducting perovskite oxide
Corcoran DJD, Irvine JTS |
| 315 - 318 |
Temperature dependence of vibrational properties in a sintered SrZrO3
Wakamura K |
| 319 - 324 |
Water vapor solubility and impedance of the high temperature proton conductor SrZr0.9Y0.1O2.95
Schober T |
| 325 - 331 |
BaZr0.85Me0.15O2.925 (Me = Y, In and Ga): crystal growth, high-resolution transmission electron microscopy, high-temperature X-ray diffraction and neutron scattering experiments
Gross B, Beck C, Meyer F, Krajewski T, Hempelmann R, Altgeld H |
| 333 - 338 |
Defects and protons in the CaZrO3 perovskite and Ba2In2O5 brownmillerite: computer modelling and EXAFS studies
Islam MS, Davies RA, Fisher CAJ, Chadwick A |
| 339 - 347 |
Double perovskites with oxygen structural vacancies: Raman spectra, conductivity and water uptake
Colomban P, Romain F, Neiman A, Animitsa I |
| 349 - 355 |
Endurance against moisture for protonic conductors of perovskite-type ceramics and preparation of practical conductors
Taniguchi N, Nishimura C, Kato J |
| 357 - 364 |
Incorporation of water in strontium tantalates with perovskite-related structure
Animitsa I, Norby T, Marion S, Glockner R, Neiman A |
| 365 - 370 |
The atomic hydrogen permeability in (CeO2)(0.85)(CaO)(0.15) at high temperatures
Nigara Y, Yashiro K, Kawada T, Mizusaki J |
| 371 - 380 |
Proton and oxygen ion-mixed-conducting ceramic composites and fuel cells
Zhu B |
| 381 - 385 |
Muon study of proton behaviour in rhenium trioxide
Lord JS, Williams WG |
| 387 - 397 |
Speculations on the existence of hydride ions in proton conducting oxides
Poulsen FW |
| 399 - 405 |
Evolution of protonic conduction in [Zn-Al-Cl] Lamellar Double Hydroxide phases with temperature and trivalent metal content
Ducos V, de Roy A, Besse JP |
| 407 - 413 |
Electrical and electrochemical processes in solid tetrabutylammonium hydroxide hydrate
Prokopowicz A, Opallo M |
| 415 - 420 |
Thermodynamic properties and structural features of water at normal and high pressures
Sinitsyn VV, Ponyatovsky EG, Kolesnikov AI, Dahlborg U, Calvo-Dahlborg M |
| 421 - 427 |
Microscopic mechanism of proton conduction in perovskite oxides from ab initio molecular dynamics simulations
Shimojo F, Hoshino K |
| 429 - 435 |
The combined neutron scattering and first-principles study of solid state protonic conductors
Yildirim T, Reisner B, Udovic TJ, Neumann DA |
| 437 - 443 |
The diffusion mechanism of an excess proton in imidazole molecule chains: first results of an ab initio molecular dynamics study
Munch W, Kreuer KD, Silvestri W, Maier J, Seifert G |
| 445 - 450 |
Tunneling mechanism on proton conduction in perovskite oxides
Matsushita E |
| 451 - 457 |
Inelastic neutron scattering studies of polypyrroles and partially deuterated analogues
Fillaux F, Parker SF, Yu LT |
| 459 - 462 |
Computer simulation of the structure and proton transport in orthoiodates
Zyubina TS, Shilov GV, Dobrovolsky YA, Atovmyan LO, Chernyak AV, Leonova LS, Ukshe AE |
