Downloads provided by UsageCountsFlexible and Binder‐Free Iron Phosphide Electrodes Using a Three‐Dimensional Support for High Hydrogen Productivity
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María Isabel Díez‐García; Andrés A. García Blanco; Sebastián Murcia‐López; Marc Botifoll; Jordi Arbiol; Mohammad Qamar; J.R. Morante;
Flexible and Binder‐Free Iron Phosphide Electrodes Using a Three‐Dimensional Support for High Hydrogen Productivity
AbstractInvited for this issue's Front Cover is the group of Energy Storage, Harvesting and Catalysis (https://www.irec.cat/research/group/energy‐storage‐harvesting‐and‐catalysis/) of Pr. J. R. Morante at the Catalonia Institute for Energy Research (IREC) in Spain that carried out this work in collaboration with the group of Pr. J. Arbiol from ICREA and ICN2 (Spain) and Dr. M. Qamar from KFUPM (Saudi Arabia). The cover picture shows an artistic representation of an electrolyzer that integrates a porous cathode able to produce hydrogen at high production rates. The required electric output to the cell is provided by solar panels. Oxygen produced by the oxidation reaction is released into the atmosphere. The layout represents how the produced green hydrogen can be used for different applications such as feedstock for chemicals and e‐fuels (from CO2 capture) in urban areas. Read the full text of the Research Article at 10.1002/celc.202201152.
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Economics, Electrode, Atmosphere (unit), Hydrogen Fuel Cells, Macroeconomics, Organic chemistry, Biochemistry, Electrolytes, carbon felt, Engineering, Electricity, Hydrogen economy, Electrolyte, Materials Chemistry, Water splitting, Carbon felt, Fuel cells, Productivity, Energy, Geography, Hydrogen evolution reaction, Raw material, Chemistry, Industrial electrochemistry, Physical chemistry, Physical Sciences, Solid Oxide Fuel Cells, Materials Science, water splitting, Electrolysis, Catalysis, Environmental science, Chemical engineering, Meteorology, PEM electrolyzer, FOS: Electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, QD1-999, FOS: Chemical engineering, High Temperature Electrolysis, FeP nanoparticles, Renewable Energy, Sustainability and the Environment, Materials science, hydrogen evolution reaction, TP250-261, Phosphide, Hydrogen fuel, Fuel Cell Membrane Technology, Electrical engineering, Electrocatalysis for Energy Conversion, Hydrogen production, Hydrogen
Economics, Electrode, Atmosphere (unit), Hydrogen Fuel Cells, Macroeconomics, Organic chemistry, Biochemistry, Electrolytes, carbon felt, Engineering, Electricity, Hydrogen economy, Electrolyte, Materials Chemistry, Water splitting, Carbon felt, Fuel cells, Productivity, Energy, Geography, Hydrogen evolution reaction, Raw material, Chemistry, Industrial electrochemistry, Physical chemistry, Physical Sciences, Solid Oxide Fuel Cells, Materials Science, water splitting, Electrolysis, Catalysis, Environmental science, Chemical engineering, Meteorology, PEM electrolyzer, FOS: Electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, QD1-999, FOS: Chemical engineering, High Temperature Electrolysis, FeP nanoparticles, Renewable Energy, Sustainability and the Environment, Materials science, hydrogen evolution reaction, TP250-261, Phosphide, Hydrogen fuel, Fuel Cell Membrane Technology, Electrical engineering, Electrocatalysis for Energy Conversion, Hydrogen production, Hydrogen
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