Tailoring the electrode-electrolyte interface of Solid Oxide Fuel Cells (SOFC) by laser micro-patterning to improve their electrochemical performance
JA Cebollero, R Lahoz, MA Laguna-Bercero… - Journal of Power …, 2017 - Elsevier
Cathode activation polarisation is one of the main contributions to the losses of a Solid
Oxide Fuel Cell. To reduce this loss we use a pulsed laser to modify the surface of yttria …
Oxide Fuel Cell. To reduce this loss we use a pulsed laser to modify the surface of yttria …
Tailoring an interface microstructure for high-performance reversible protonic ceramic electrochemical cells via soft lithography
Micropatterning is considered a promising strategy for improving the performance of
electrochemical devices. However, micropatterning on ceramic is limited by its mechanically …
electrochemical devices. However, micropatterning on ceramic is limited by its mechanically …
A micro-patterned electrode/electrolyte interface fabricated by soft-lithography for facile oxygen reduction in solid oxide fuel cells
The performance of solid oxide fuel cells can be improved by introducing micro-patterns on
their electrolyte layer. However, because of the undesired properties of ceramic structures …
their electrolyte layer. However, because of the undesired properties of ceramic structures …
Improving the electrochemical performance of solid oxide fuel cells by surface patterning of the electrolyte
The effect of electrolyte surface patterning on the cell performance is investigated. The
patterning process is accomplished by isostatically pressing the electrolyte together with a …
patterning process is accomplished by isostatically pressing the electrolyte together with a …
[HTML][HTML] Laser processing of ceramic materials for electrochemical and high temperature energy applications
The laser is a powerful tool for materials processing, incorporated already in many industrial
processes and laboratory procedures. In this work, we are concerned with laser processing …
processes and laboratory procedures. In this work, we are concerned with laser processing …
Modifying the electrode-electrolyte interface of anode supported solid oxide fuel cells (SOFCs) by laser-machining
Y Zhang, G Cai, Y Gu, L Ge, Y Zheng, H Chen… - Energy Conversion and …, 2018 - Elsevier
The NiO-yttrium stabilized zirconia (YSZ) anode substrates prepared by tape casting are
modified via laser-machining technique in mesoscale for electrode-electrolyte interface …
modified via laser-machining technique in mesoscale for electrode-electrolyte interface …
Asymmetric anode substrate fabricated by phase inversion process and its interface modification for solid oxide fuel cells
D Gu, N Shi, F Yu, Y Zheng, H Chen, L Guo - Journal of Alloys and …, 2018 - Elsevier
NiO/8YSZ anode supports for planar solid oxide fuel cells are prepared via phase inversion
method. With the asymmetric anode structures, two approaches are applied to modify the …
method. With the asymmetric anode structures, two approaches are applied to modify the …
Modification of electrode/electrolyte interface by laser micro-processing for solid oxide fuel cell
G Cai, Y Zhang, H Dai, S He, L Ge, H Chen, L Guo - Materials Letters, 2017 - Elsevier
A strategy based on laser micro-processing was proposed to improve the solid oxide fuel
cell performance by modifying electrode/electrolyte interface with a “dimples array” structure …
cell performance by modifying electrode/electrolyte interface with a “dimples array” structure …
Modification of electrolyte surface with “windows” and “dimples array” structure for SOFC based on YSZ electrolyte
G Cai, Y Gu, L Ge, Y Zhang, H Chen, L Guo - Ceramics International, 2017 - Elsevier
A strategy based on tape-casting and laser micro-processing was proposed to enhance the
electrochemical performance of solid oxide fuel cells by modifying the electrolytes with a …
electrochemical performance of solid oxide fuel cells by modifying the electrolytes with a …
Fabrication process for micropatterned ceramics via UV-nanoimprint lithography using UV-curable binder
T Okabe, Y Kim, Z Jiao, N Shikazono… - Japanese Journal of …, 2018 - iopscience.iop.org
Ceramic electrochemical devices, such as solid oxide fuel cell (SOFC), require a high
electrochemical reaction density. UV-nanoimprint lithography (UV-NIL) process comprising …
electrochemical reaction density. UV-nanoimprint lithography (UV-NIL) process comprising …