The role of vacuum based technologies in solid oxide fuel cell development to utilize industrial waste carbon for power production
Solid oxide fuel cells (SOFCs) are devices that can generate electrical power and heat by
transforming the chemical energy stored in the fuels. Waste carbon from industries is a …
transforming the chemical energy stored in the fuels. Waste carbon from industries is a …
Thin film solid oxide fuel cells operating below 600 C: a review
Thin film solid oxide fuel cells (TF-SOFCs) are one of the promising portable power sources
in terms of rapid on/off, compact system volume, and high power density. This paper reviews …
in terms of rapid on/off, compact system volume, and high power density. This paper reviews …
Nanoporous nickel thin film anode optimization for low-temperature solid oxide fuel cells
Thin film solid oxide fuel cells (TF–SOFCs) having anode–substrate nanostructure that was
optimized for the low-temperature operation were fabricated. Nickel thin film anodes with …
optimized for the low-temperature operation were fabricated. Nickel thin film anodes with …
Effect of Ni–GDC anode thickness by Co-sputtering on the high-performance thin film solid oxide fuel cells on a nanoporous substrate for low-temperature operation
Thin film solid oxide fuel cells (TF–SOFCs) having Ni–GDC anodes with different
thicknesses of (1–5) μm were fabricated on a nanoporous substrate termed anodic …
thicknesses of (1–5) μm were fabricated on a nanoporous substrate termed anodic …
Atomic layer deposition for surface engineering of solid oxide fuel cell electrodes
Atomic layer deposition (ALD) has recently attracted attention as a technique to synthesize
and engineer high-performance catalysts and electrodes for fuel cells. Unique advantages …
and engineer high-performance catalysts and electrodes for fuel cells. Unique advantages …
Reactive sputtered Ni-SDC cermet alloy anode for low-temperature solid oxide fuel cell
The facile deposition process for multi-component films is crucial in the development of thin
film low-temperature solid oxide fuel cells (LT-SOFCs). Here, we report on the development …
film low-temperature solid oxide fuel cells (LT-SOFCs). Here, we report on the development …
Co-sputtered nanocomposite nickel cermet anode for high-performance low-temperature solid oxide fuel cells
Nickel-samaria-doped ceria (Ni-SDC) nanocomposite anodes with various compositions are
fabricated by co-sputtering technique. The film compositions are effectively controlled by …
fabricated by co-sputtering technique. The film compositions are effectively controlled by …
Asymmetric glancing angle co-sputtering method for the nanostructural and compositional engineering of nanocomposite anodes for thin-film solid oxide fuel cells
In this study, Nickel-yttrium-doped ceria (Ni-YDC) nanocomposite anodes with a wide range
of Ni compositions and nanostructures are fabricated using a novel asymmetric glancing …
of Ni compositions and nanostructures are fabricated using a novel asymmetric glancing …
Influence of the start-up rate on the electrochemical impedance of a low-temperature solid oxide fuel cell fabricated by reactive sputtering
Low-temperature solid oxide fuel cells were heated from room temperature to an operating
temperature of 450° C. The start-up heating rate was controlled at three levels (10 K min− 1 …
temperature of 450° C. The start-up heating rate was controlled at three levels (10 K min− 1 …
High frequency dielectric characterization of graphene doped flexible ceramics multilayers
This paper explores the tape casting technique to produce flexible heterostructured
multilayers composed of graphene nanoplatelets doped Alumina and Ceria doped Nickel …
multilayers composed of graphene nanoplatelets doped Alumina and Ceria doped Nickel …