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| Challenges and opportunities of solid state ionic devices | p. 1 |
| Multinuclear NMR studies of mass transport of phosphoric acid in water | p. 19 |
| Crystalline glassy and polymeric electrolytes : similarities and differences in ionic transport mechanisms | p. 29 |
| 30 years of NMR/NQR experiments in solid electrolytes | p. 30 |
| Analysis of conductivity and NMR measurements in Li[subscript 3x]La[subscript 2/3-x]TiO[subscript 3] fast Li[superscript +] ionic conductor : evidence for correlated Li[superscript +] motion | p. 42 |
| Transport pathways for ions in disordered solids from bond valence mismatch landscapes | p. 54 |
| Proton conductivity in condensed phases of water : implications on linear and ball lightning | p. 66 |
| Proton transport in nanocrystalline bioceramic materials : an Investigative study of synthetic bone with that of natural bone | p. 69 |
| Synthesis and properties of the nanostructured fast ionic conductor Li[subscript 0.3]La[subscript 0.56]TiO[subscript 3] | p. 77 |
| Hydrogen production : ceramic materials for high temperature water electrolysis | p. 85 |
| Influence of the sintering temperature on pH sensor ability of Li[subscript 3x]La[subscript 2/3-x]TiO[subscript 3] : relationship between potentiometric and impedance spectroscopy measurements | p. 96 |
| Microstructure chracterization and ionic conductivity of nano-sized CeO[subscript 2]-Sm[subscript 2]O[subscript 3] system (x = 0.05 - 0.2) prepared by combustion route | p. 104 |
| Red soil in northern Sri Lanka is a natural magnetic ceramic | p. 112 |
| Neutron scattering of LiNiO[subscript 2] | p. 121 |
| Preparation and properties of LiFePO[subscript 4] nanorods | p. 129 |
| Structural and electrochemical properties of monoclinic and othorhombic MoO[subscript 3] phases | p. 136 |
| Preparation of zircon (ZrSiO[subscript 4]) ceramics via solid state sintering of ZrO[subscript 2] and SiO[subscript 2] and the effect of dopants on the zircon yield | p. 146 |
| Preparation and properties of vanadium doped ZnTe cermet thin films | p. 154 |
| Dynamical properties and electronic structure of lithium-ion conductor | p. 162 |
| Cuprous ion conducting montmorillonite- polypyrrole nanocomposites | p. 170 |
| Frequency dependence of conductivity studies on a newly synthesized superionic solid solution/mixed system: [0.75AgI: 0.25AgCl] | p. 179 |
| Diffuse X-ray and neutron scattering from powder PbS | p. 185 |
| Electron affinity and work function of pyrolytic MnO[subscript 2] thin films prepared from Mn(C[subscript 2]H[subscript 3]O[subscript 2])[subscript 2].4H[subscript 2]O | p. 193 |
| Crystal structure and heat capacity of Ba[subscript 3]Ca[subscript 1.18]Nb[subscript 1.82]O[subscript 8.73] | p. 201 |
| XPS and impedance investigations on amorphous vanadium oxide thin films | p. 206 |
| Sintering and mixed electronic-ionic conducting properties of La[subscript 1.9]Sr[subscript 0.1]NiO[subscript 4+[delta]] derived from a polyaminocarboxylate complex precursor | p. 213 |
| Preparation and characteristics of ball milled MgH[subscript 2] + M (M = Fe, VF[subscript 3] and FeF[subscript 3]) nanocomposites for hydrogen storage | p. 220 |
| Structural studies of oxysulfide glasses by X-ray diffraction and molecular dynamics simulation | p. 228 |
| Synthesis, sintering and oxygen ionic conducting properties of Bi[subscript 2]V[subscript 0.9]Cu[subscript 0.1]O[subscript 5.5-[delta]] | p. 236 |
| Synthesis and transport characteristics of PbI[subscript 2]-Ag[subscript 2]O-Cr[subscript 2]O[subscript 3] superionic system | p. 244 |
| Electronic conductivity of La[subscript 0.8]Sr[subscript 0.2]Ga[subscript 0.8]Mg[subscript 0.2-x]Co[subscript x]O[subscript 3-[delta]] electrolytes | p. 252 |
| Cathodic properties of Al-doped LiCoO[subscript 2] prepared by molten salt method Li-ion batteries | p. 265 |
| Layered ion-electron conducting materials | p. 283 |
| LiNi[subscript 0.80]Co[subscript 0.20]O[subscript 2] cathode thin-film prepared by RF sputtering for all-solid-state rechargeable microbatteries | p. 295 |
| Nanocomposite cathode for SOFCs prepared by electrostatic spray deposition | p. 305 |
| Effect of the addition of nanoporous carbon black on the cycling characteristics of Li[subscript 2]Co[subscript 2](MoO[subscript 4])[subscript 3] for lithium batteries | p. 313 |
| Protonic conduction in TiP[subscript 2]O[subscript 7] | p. 321 |
| Preparation and electrochemical LiMn[subscript 2]O[subscript 4] thin film by a solution deposition method | p. 329 |
| Synthesis and characterization LiMPO[subscript 4] (M = Ni, Co) | p. 337 |
| Synthesis and electrical characterization of LiCoO[subscript 2], LiFeO[subscript 2] and NiO compositions | p. 345 |
| Natural Sri Lanka graphite as conducting enhancer in manganese dioxide (emd type) cathode of alkaline batteries | p. 353 |
| Electrochemical properties of LiNi[subscript 1-(x+y)]Al[subscript x]Zn[subscript y]O[subscript 2] cathode material synthesized by emulsion method | p. 361 |
| LiNi[subscript 0.80]Co[subscript 0.20]O[subscript 2] cathode materials synthesized by particulate Sol-gel method for lithium ion batteries | p. 369 |
| Pulsed laser deposition of highly oriented LiCoO[subscript 2] and LiMn[subscript 2]O[subscript 4] thin films for microbattery applications | p. 377 |
| Preparation of LiNi[subscript 0.80]Co[subscript 0.20]O[subscript 2] thin films by a sol-gel method | p. 385 |
| Electrochemical lithium insertion into a manganese dioxide electrode in aqueous solutions | p. 392 |
| AC impedance spectroscopic analysis of thin film LiNiVO[subscript 4] prepared by pulsed laser deposition technique | p. 400 |
| Synthesis and characterization of LiFePO[subscript 4] cathode materials by microwave processing | p. 408 |
| Characterization of Nd[subscript 0.8]Sr[subscript 0.2]CoO[subscript 3-[delta]] including Pt second phase as the cathode material for low-temperature SOFCs | p. 412 |
| Thermodynamic behavior of lithium intercalation into natural vein and synthetic graphite | p. 418 |
| Organised or disorganised? Looking at polymer electrolytes from both points of view | p. 431 |
| Polymer electrolytes - simple low permittivity solutions? | p. 443 |
| Dependence of conductivity enhancement on the dielectric constant of the dispersoid in polymer-ferroelectric composite electrolytes | p. 444 |
| Design and application of boron compounds for high-performance polymer electrolytes | p. 449 |
| Structural, vibrational and AC impedance analysis of nano composite polymer electrolytes based on PVAC | p. 459 |
| Absorption intensity variation with ion association in PEO based electrolytes | p. 469 |
| Study of ion-polymer interactions in cationic and anionic ionomers from the dependence of conductivity on pressure and temperature | p. 477 |
| Triol based polyurethane gel electrolytes for electrochemical devices | p. 485 |
| Accurate conductivity measurements to solvation energies in nafion | p. 499 |
| Ion conducting behaviour of composite polymer gel electrolyte : PEG - PVA - (NH[subscript 4]CH[subscript 2]CO[subscript 2])[subscript 2] system | p. 506 |
| Impedance spectroscopy and DSC studies of poly(vinylalcohol)/silicotungstic acid crosslinked composite membranes | p. 514 |
| (PEO)[subscript n]:Na[subscript 4]P[subscript 2]O[subscript 7] : a report on complex formation | p. 522 |
| Experimental studies on (PVC+LiClO[subscript 4]+DMP) polymer electrolyte systems for lithium battery | p. 530 |
| Stability of the gel electrolyte, PAN: EC: PC: LiCF[subscript 3]SO[subscript 3] towards lithium | p. 538 |
| Montmorillonite as a conductivity enhancer in (PEO)[subscript 9]LiCF[subscript 3]SO[subscript 3] polymer electrolyte | p. 543 |
| Polymeric gel electrolytes for electrochemical capacitors | p. 566 |
| Electrical conductivity studies on proton conducting polymer electrolytes based on poly (viniyl acetate) | p. 577 |
| Conductivity and thermal studies on plasticized PEO:LiTf-Al[subscript 2]O[subscript 3] composite polymer electrolyte | p. 585 |
| Investigation of transport properties of a new biomaterials - gum mangosteen | p. 593 |
| Investigation of ionic conductivity of PEO- MgCl[subscript 2] based solid polymer electrolyte | p. 600 |
| [superscript 1]H NMR and Raman analysis of proton conducting polymer electrolytes based on partially hydrolyzed poly (vinyl alcohol) | p. 608 |
| Influence of Al[subscript 2]O[subscript 3] nanoparticles on the phase matrix of polyethylene oxide - silver triflate polymer electrolytes | p. 616 |
| Effect of different types of ceramic fillers on thermal, dielectric and transport properties of PEO[subscript 9] LiTf solid polymer electrolyte | p. 623 |
| Characterization of PVP based solid polymer electrolytes using spectroscopic techniques | p. 631 |
| Electrochemical and structural properties of polyvinylidene fluoride - silver triflate solid polymer electrolyte system | p. 639 |
| Micro Raman, Li NMR and AC impedance analysis of PVAC:LiClO[subscript 4] solid polymer eectrolytes | p. 647 |
| Study of Na[superscript +] ion conduction in PVA-NaSCN solid polymer electrolytes | p. 655 |
| Effect of filler addition on plasticized polymer electrolyte systems | p. 663 |
| Ionic motion in PEDOT and PPy conducting polymer bilayers | p. 671 |
| Film formation mechanism and electrochemical characterization of V[subscript 2]O[subscript 5] xerogel intercalated by polyaniline | p. 679 |
| Effect of NH[subscript 4]NO[subscript 3] concentration on the conductivity of PVA based solid polymer electrolyte | p. 687 |
| Dielectric and conductivity studies of PVA-KSCN based solid polymer electrolytes | p. 696 |
| The use of solid state ionic materials and devices in medical applications | p. 709 |
| Development of all-solid-state lithium batteries | p. 723 |
| Reversible intermediate temperature solid oxide fuel cells | p. 735 |
| Nano-size effects in lithium batteries | p. 736 |
| Electrochromics : fundamentals and applications | p. 747 |
| Electrochemical CO[subscript 2] gas sensor | p. 756 |
| Polypyrrole for artificial muscles : ionic mechanisms | p. 768 |
| Development and characterization of polyfluorene based light emitting diodes and their colour tuning using forster resonance energy transfer | p. 780 |
| Mesoporous and nanoparticulate metal oxides : applications in new photocatalysis | p. 788 |
| Proton conducting (PC) perovskite membranes for hydrogen separation and PC-SOFC electrodes and electrolytes | p. 789 |
| Electroceramic materials for the development of natural gas fuelled SOFC/GT plant in developing country (Trinidad and Tobogo (T&T)) | p. 799 |
| Thin film SOFC supported on nano-porous substrate | p. 811 |
| Characterization and fabrication of silver solid state battery Ag/AgI-AgPO[subscript 3]/I[subscript 2],C | p. 818 |
| Performance of lithium polymer cells with polyacrylonitrile based electrolyte | p. 826 |
| Hydrothermal synthesis and electrochemical behavior of MoO[subscript 3] nanobelts for lithium batteries | p. 833 |
| Electrochemical behaviour of a PPy (DBS)/polyacrylonitrile :LiTF:EC:PC/Li cell | p. 841 |
| Characteristics of thick film CO[subscript 2] sensors based on NASICON using Li[subscript 2]CO[subscript 3]-CaCO[subscript 3] auxiliary phases | p. 849 |
| Solid state battery discharge characteristic study on fast silver ion conducting composite system: 0.9[0.75AgI:0.25AgCl]: 0.1TiO[subscript 2] | p. 854 |
| Intercalating protonic solid-state batteries with series and parallel combination | p. 859 |
| Synthesis and characterization of ZnO fiber by microwave processing | p. 866 |
| Preparation of Sn-Ge alloy coated Ge nanoparticles and Sn-Si alloy coated Si nanoparticles by ball-milling | p. 870 |
| Synthesis of ultrafine and crystallized TiO[subscript 2] by alalkoxied free polymerizable precursor method | p. 878 |
| Development and characterization of polythiophene/fullerene composite solar cells and their degradation studies | p. 884 |
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