Add to ORKGThe feasibility of inkjet printing of electrodes for direct carbon solid oxide fuel cells (DC-SOFC) was tested. A variety of materials was deposited by direct ceramic inkjet printing (DCIJP). The technology allows for easy modification of the coatings, including thickness control, porosity graduation and precise infiltration with catalytically active materials. The comparative tests showed a similar performance for screen printed and inkjet printed cells (peak power density of ca. 80 mW cm-2 at 780°C). In addition DCIJP offers minimization of the usage of expensive precursor materials. It was also found that infiltration of the anode by inkjet printing of sol inks (CuNiO3) can lead to an improvement in DC-SOFC performance
Lanthanum Strontium Cobalt oxide (LSC) is a mixed ionic-electronic conductor (MIEC) ceramic suited f...
We propose a simple ink formulation and a rapid preparation technique to deposit a 20 mol% gadoliniu...
International audienceThis chapter is focused on current development efforts in the field of fuel ce...
The feasibility of inkjet printing of electrodes for direct carbon solid oxide fuel cells (DC-SOFC) ...
Solid Oxide Fuel Cell (SOFC) is an energy conversion device consisting of porous electrodes and a de...
The inkjet printing technique has numerous advantages and is attractive in solid oxide fuel cell (SO...
An important segment of the future renewable energy economy is the implementation of novel energy ge...
An important segment of the future renewable energy economy is the implementation of novel energy ge...
Solid oxide fuel cell technology can achieve high efficiency when producing electric power. To produ...
Inkjet printing fabrication and modification of electrodes and electrolytes of SOFCs were studied. E...
In this study, we report the facile fabrication of thin-film yttria-stabilized zirconia (YSZ) electr...
Abstract Commercially available anode supported solid oxide fuel cells (NiO-8YSZ/8YSZ/LSCF- 20 mm in...
Funding Information: The authors are thankful to Academy of Finland (Grant No. 13329016 , 13322738 )...
With increasing wind and solar energy production energy storage becomes increasingly important. Soli...
Inkjet printing technology was employed for the application of protective layer coatings in SOFC met...
Lanthanum Strontium Cobalt oxide (LSC) is a mixed ionic-electronic conductor (MIEC) ceramic suited f...
We propose a simple ink formulation and a rapid preparation technique to deposit a 20 mol% gadoliniu...
International audienceThis chapter is focused on current development efforts in the field of fuel ce...
The feasibility of inkjet printing of electrodes for direct carbon solid oxide fuel cells (DC-SOFC) ...
Solid Oxide Fuel Cell (SOFC) is an energy conversion device consisting of porous electrodes and a de...
The inkjet printing technique has numerous advantages and is attractive in solid oxide fuel cell (SO...
An important segment of the future renewable energy economy is the implementation of novel energy ge...
An important segment of the future renewable energy economy is the implementation of novel energy ge...
Solid oxide fuel cell technology can achieve high efficiency when producing electric power. To produ...
Inkjet printing fabrication and modification of electrodes and electrolytes of SOFCs were studied. E...
In this study, we report the facile fabrication of thin-film yttria-stabilized zirconia (YSZ) electr...
Abstract Commercially available anode supported solid oxide fuel cells (NiO-8YSZ/8YSZ/LSCF- 20 mm in...
Funding Information: The authors are thankful to Academy of Finland (Grant No. 13329016 , 13322738 )...
With increasing wind and solar energy production energy storage becomes increasingly important. Soli...
Inkjet printing technology was employed for the application of protective layer coatings in SOFC met...
Lanthanum Strontium Cobalt oxide (LSC) is a mixed ionic-electronic conductor (MIEC) ceramic suited f...
We propose a simple ink formulation and a rapid preparation technique to deposit a 20 mol% gadoliniu...
International audienceThis chapter is focused on current development efforts in the field of fuel ce...