Marc Torrell
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View article: Enhanced CO2 methanation with ceramic 3D printed catalyst bed reactor
Enhanced CO2 methanation with ceramic 3D printed catalyst bed reactor Open
3D printing is revolutionizing manufacturing, particularly in fields where complex shapes offer significant advantages, such as catalysis. This study demonstrates the potential of the ceramic-based additive manufacturing for producing cata…
Resource availability for e-MGO adoption in maritime transport: A case study in the Port of Barcelona Open
Power-to-Liquid processes have the potential to decarbonize maritime transport by producing carbon–neutral electro-fuels. One example of a potential implementation of this process is the combined technology of co-electrolysis of carbon dio…
3D printing of reversible solid oxide cell stacks for efficient hydrogen production and power generation Open
Renewable hydrogen offers a promising pathway to address the challenge of large-scale chemical energy storage in the transition to a decarbonized future. The most efficient devices to convert renewable electricity into hydrogen, and vice v…
Single-step fully 3D printed and co-sintered solid oxide fuel cells Open
The capabilities of hybrid multi-material additive manufacturing to produce entire self-standing SOFC devices have been proved in just two stages, 3D printing and co-sintering.
3D printed electrolyte-supported solid oxide cells based on Ytterbium-doped scandia-stabilized zirconia Open
Solid oxide cells (SOC) are an efficient and cost-effective energy conversion technology able to operate reversibly in fuel cell and electrolysis mode. Electrolyte-supported SOC have been recently fabricated employing 3D printing to genera…
View article: Thickness effect of thin-film barrier layers for enhanced long-term operation of solid oxide fuel cells
Thickness effect of thin-film barrier layers for enhanced long-term operation of solid oxide fuel cells Open
Highly efficient solid oxide cells are one of the most promising technologies for a sustainable future based on renewable hydrogen. The diffusion barrier layer employed between zirconia-based electrolytes and state-of-the-art oxygen electr…
Correction: del Pozo Gonzalez et al. Mathematical Modeling and Thermal Control of a 1.5 kW Reversible Solid Oxide Stack for 24/7 Hydrogen Plants. Mathematics 2023, 11, 366 Open
In the original publication [...]
Electrophoretic deposition of MnCo2O4 coating on solid oxide cell interconnects manufactured through powder metallurgy Open
Developing cost-effective and durable interconnects for solid oxide cells is crucial to overcome currently existing barriers for the commercialization of this promising energy technology. A systematic microstructural and electrical charact…
Mathematical Modeling and Thermal Control of a 1.5 kW Reversible Solid Oxide Stack for 24/7 Hydrogen Plants Open
Solid oxide technology has gained importance due to its higher efficiencies compared to other current hydrogen technologies. The reversible mode allows working with both technologies (SOEC-SOFC), which makes it very attractive for mixed op…
3D printing of self-supported solid electrolytes made of glass-derived Li<sub>1.5</sub>Al<sub>0.5</sub>Ge<sub>1.5</sub>P<sub>3</sub>O<sub>12</sub> for all-solid-state lithium-metal batteries Open
LAGP solid electrolyte was successfully 3D printed by stereolithography, producing a corrugated shape, which reduced the area specific resistance and improved the durability during cycling.
Business Model Development for a High-Temperature (Co-)Electrolyser System Open
There are increasing international efforts to tackle climate change by reducing the emission of greenhouse gases. As such, the use of electrolytic hydrogen as an energy carrier in decentralised and centralised energy systems, and as a seco…
Functional thin films as cathode/electrolyte interlayers: a strategy to enhance the performance and durability of solid oxide fuel cells Open
LSM/SDC functional bilayer fabricated by PLD (pulsed laser deposition) presenting a self-assembled periodic nanocomposite applied as a functional cathode layer on an SOFC resulting in an enhanced performance and durability of the tested ce…
2022 roadmap on 3D printing for energy Open
The energy transition is one of the main challenges of our society and therefore a major driver for the scientific community. To ensure a smart transition to a sustainable future energy scenario different technologies such as energy harves…
Solid Oxide Cell Electrode Nanocomposites Fabricated by Inkjet Printing Infiltration of Ceria Scaffolds Open
The enhancement of solid oxide cell (SOC) oxygen electrode performance through the generation of nanocomposite electrodes via infiltration using wet-chemistry processes has been widely studied in recent years. An efficient oxygen electrode…
Reversible fuel electrode supported solid oxide cells fabricated by aqueous multilayered tape casting Open
Fuel electrode supported solid oxide cells (SOCs) have been developed on an industrial scale using the aqueous tape-casting technique. The NiO–yttria-stabilized zirconia Y 2 O 3 –ZrO 2 (YSZ) fuel electrode and YSZ electrolyte have been man…
High-performing electrolyte-supported symmetrical solid oxide electrolysis cells operating under steam electrolysis and co-electrolysis modes Open
Symmetrical solid oxide cells (s-SOC) present several advantages compared to typical configuration, as a reduction of sintering steps or a better thermomechanical compatibility between the electrodes and the electrolyte. Different mixed io…
3D printing the next generation of enhanced solid oxide fuel and electrolysis cells Open
Improving of SOCs performance by 3D printing are proved, increasing the active area by high-aspect ratio structuration of their components.
Infiltrated mesoporous oxygen electrodes for high temperature co-electrolysis of H<sub>2</sub>O and CO<sub>2</sub> in solid oxide electrolysis cells Open
In the last years high temperature Solid Oxide Electrolysis Cells (SOECs) have emerged as a promising solution for energy conversion and storage. Oxygen electrodes based on mesoporous materials are proposed for enhancing the performance an…