2023
DOI: 10.1016/j.electacta.2023.143074
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Large-area 3D printed electrolyte-supported reversible solid oxide cells

M. Lira,
N. Kostretsova,
I. Babeli
et al.
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Cited by 8 publications
(1 citation statement)
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“…This innovative design sought to enhance the electrochemical performance of SOCs, and appropriate modelling was conducted to validate the approach (figures 14(c) and (d)). In their subsequent research, this technology was extended to a large size cell spanning 25 cm 2 as shown in figure 15(a) [108]. The electrolyte with honeycomb structure was advantageous due to the expanded electrochemical reaction site (figure 15(b)).…”
Section: D Printing For Es-socsmentioning
confidence: 99%
“…This innovative design sought to enhance the electrochemical performance of SOCs, and appropriate modelling was conducted to validate the approach (figures 14(c) and (d)). In their subsequent research, this technology was extended to a large size cell spanning 25 cm 2 as shown in figure 15(a) [108]. The electrolyte with honeycomb structure was advantageous due to the expanded electrochemical reaction site (figure 15(b)).…”
Section: D Printing For Es-socsmentioning
confidence: 99%