Sort by
Refine Your Search
-
manufacturing Optimization of parameters for additive manufacturing of polymers Expansion of the model to other materials, such as cement and ceramics. . WORKPLACE AND SCIENTIFIC SUPERVISION: The work will be
-
energy conversion technologies such as proton ceramic fuel cells and electrolysers. These technologies are central in the transition to renewable energy and in the electrification of industrial processes
-
for electrochemical energy conversion technologies especially proton ceramic fuel cells and electrolysers. These technologies are central in the transition to renewable energy and in the electrification of industrial
-
ceramic fuel cells and electrolysers. These technologies are central in the transition to renewable energy and in the electrification of industrial processes. For more information and how to apply: https
-
. The Electrochemistry group is among the world-leading in solid-state electrochemistry and materials science of oxides for electrochemical energy conversion technologies especially proton ceramic fuel cells and
-
Earth orbit at the University of Minho, reference 2023.16452.ICDT (https://doi.org/10.54499/2023.16452.ICDT ), funded under the 2023 Call for R&D Projects in All Scientific Domains by State Budget funds
-
performance loss, the research programme will explore new materials, catalysts, and cell designs. There will be two cell types of interest in this programme: i) oxygen-ion and ii) proton-conducting ceramic
-
performance loss, the research programme will explore new materials, catalysts, and cell designs. There will be two cell types of interest in this programme: i) oxygen-ion and ii) proton-conducting ceramic