Add to ORKGDE 102006055836 A1 UPAB: 20080615 NOVELTY - The contact layer build-up connects two elements electrically at high temperatures, e.g. in the region of 750-950 oC. It is formed from two different non-stoichiometric perowskites. The material used for the contact layer build-up may be silver-containing or silver-free A-cation-deficient perowskite or excessive-A-cation perowskite. USE - For conducting electricity e.g. in an oxygen sensor. ADVANTAGE - Good conductivity at high temperatures, easier and cheaper to produce
WO2003092089 A UPAB: 20031203 NOVELTY - High temperature, solid electrolyte fuel cell with an electr...
DE 102010005465 A1 UPAB: 20100915 NOVELTY - The component (1) has a protective layer (4) arranged on...
DE 10058581 C UPAB: 20020409 NOVELTY - Electromechanically controlled electrical resistance element ...
DE 102009037144 A1 UPAB: 20110302 NOVELTY - The element has a chemically inert, electrically conduct...
DE 102009015794 B3 UPAB: 20100802 NOVELTY - The element (1) has a laminar electrically conducting pa...
DE 102009037147 A1 UPAB: 20110302 NOVELTY - The contact element has guide way structures (5) for fee...
The structure has an electrical contact layer formed on a substrate or layer. The contact layer form...
EP 1806805 A2 UPAB: 20070801 NOVELTY - Unit has a layer composition with a porous anode (3) formed i...
DE 10342160 A UPAB: 20050506 NOVELTY - A production process for high-temperature fuel cells having e...
DE 19835253 A UPAB: 20000228 A manufacturing method for a high-temperature fuel cell equipped with a...
DE 10106476 C UPAB: 20021113 NOVELTY - A temperature measuring arrangement comprises a temperature s...
DE 102005013602 A1 UPAB: 20061121 NOVELTY - The electrode has an electrically conductive layer (7) p...
DE 102009034307 A1 UPAB: 20110209 NOVELTY - The method involves forming an electrically conductive l...
DE 102005024346 A1 UPAB: 20070129 NOVELTY - The unit (80) has two connection points, and a fusible m...
DE 102006017547 A1 UPAB: 20071129 NOVELTY - The component has thermoelectrical pairs of side pieces ...
WO2003092089 A UPAB: 20031203 NOVELTY - High temperature, solid electrolyte fuel cell with an electr...
DE 102010005465 A1 UPAB: 20100915 NOVELTY - The component (1) has a protective layer (4) arranged on...
DE 10058581 C UPAB: 20020409 NOVELTY - Electromechanically controlled electrical resistance element ...
DE 102009037144 A1 UPAB: 20110302 NOVELTY - The element has a chemically inert, electrically conduct...
DE 102009015794 B3 UPAB: 20100802 NOVELTY - The element (1) has a laminar electrically conducting pa...
DE 102009037147 A1 UPAB: 20110302 NOVELTY - The contact element has guide way structures (5) for fee...
The structure has an electrical contact layer formed on a substrate or layer. The contact layer form...
EP 1806805 A2 UPAB: 20070801 NOVELTY - Unit has a layer composition with a porous anode (3) formed i...
DE 10342160 A UPAB: 20050506 NOVELTY - A production process for high-temperature fuel cells having e...
DE 19835253 A UPAB: 20000228 A manufacturing method for a high-temperature fuel cell equipped with a...
DE 10106476 C UPAB: 20021113 NOVELTY - A temperature measuring arrangement comprises a temperature s...
DE 102005013602 A1 UPAB: 20061121 NOVELTY - The electrode has an electrically conductive layer (7) p...
DE 102009034307 A1 UPAB: 20110209 NOVELTY - The method involves forming an electrically conductive l...
DE 102005024346 A1 UPAB: 20070129 NOVELTY - The unit (80) has two connection points, and a fusible m...
DE 102006017547 A1 UPAB: 20071129 NOVELTY - The component has thermoelectrical pairs of side pieces ...
WO2003092089 A UPAB: 20031203 NOVELTY - High temperature, solid electrolyte fuel cell with an electr...
DE 102010005465 A1 UPAB: 20100915 NOVELTY - The component (1) has a protective layer (4) arranged on...
DE 10058581 C UPAB: 20020409 NOVELTY - Electromechanically controlled electrical resistance element ...