Add to ORKGNovel solid proton conductors based on oxyacid salts and salt-ceramic composites and intermediate temperature fuel cells have been developed in this thesis work. The discovery of proton conduction in these materials introduces a new concept of proton conductors and starts a new research field - Intermediate Temperature Solid Proton Conductors and Fuel Cells. In these materials highly mobile protons are present in very low concentrations resulting in a high proton conductivity, 10-2 to 10-1 S/cm, between 300 and 600 \ub0C. Most materials investigated have a face centred cubic structure or are two-phase materials. Two types of proton bond states and proton conduction mechanisms have been suggested and are discussed. The first type is a single...
Proton-conducting materials are an important component of fuel cells. Development of new types of pr...
The preparation of proton-conducting materials that are functional and stable at intermediate temper...
Application of proton-conducting ceramic membranes in various electrochemical devices (e.g. SOFCs, S...
Novel solid proton conductors based on oxyacid salts and salt-ceramic composites and intermediate te...
Development of intermediate temperature (200-500°C) fuel cells could possibly overcome many disadvan...
Proton ceramic conductors are novel materials which are interesting from the application point of vi...
Fuel cells operating at medium temperature range from 473 to 773 K have attracted worldwide attentio...
Solid oxide proton conductors offer a new intermediate temperature fuel cell technology combining th...
The global effort for reaching highly efficient CO2-neutral energy supply requires innovative techno...
The main objective of present thesis is to develop novel and inexpensive solid polymeric electrolyte...
A solid/liquid bridges the gap: Although the intermediate temperature range (150-500degreesC) is of...
A new proton conducting perovskite material Sr3CaZr0.9Ta1.1O8.55 (SCZT) was synthesised and the mode...
Objectives of this project were to prepare and characterize novel solid state proton-conductors and ...
Proton-conducting ceramics based on perovskite-type oxides have been significantly applied in a wide...
Novel proton-conductive electrolytes (NH4)xK1-xPO3 were developed for use in intermediate-temperatur...
Proton-conducting materials are an important component of fuel cells. Development of new types of pr...
The preparation of proton-conducting materials that are functional and stable at intermediate temper...
Application of proton-conducting ceramic membranes in various electrochemical devices (e.g. SOFCs, S...
Novel solid proton conductors based on oxyacid salts and salt-ceramic composites and intermediate te...
Development of intermediate temperature (200-500°C) fuel cells could possibly overcome many disadvan...
Proton ceramic conductors are novel materials which are interesting from the application point of vi...
Fuel cells operating at medium temperature range from 473 to 773 K have attracted worldwide attentio...
Solid oxide proton conductors offer a new intermediate temperature fuel cell technology combining th...
The global effort for reaching highly efficient CO2-neutral energy supply requires innovative techno...
The main objective of present thesis is to develop novel and inexpensive solid polymeric electrolyte...
A solid/liquid bridges the gap: Although the intermediate temperature range (150-500degreesC) is of...
A new proton conducting perovskite material Sr3CaZr0.9Ta1.1O8.55 (SCZT) was synthesised and the mode...
Objectives of this project were to prepare and characterize novel solid state proton-conductors and ...
Proton-conducting ceramics based on perovskite-type oxides have been significantly applied in a wide...
Novel proton-conductive electrolytes (NH4)xK1-xPO3 were developed for use in intermediate-temperatur...
Proton-conducting materials are an important component of fuel cells. Development of new types of pr...
The preparation of proton-conducting materials that are functional and stable at intermediate temper...
Application of proton-conducting ceramic membranes in various electrochemical devices (e.g. SOFCs, S...