Your search keyword '"OXYGEN REDUCTION ACTIVITY"' showing total 2 results

1. Tailoring the ORR and HER electrocatalytic performances of gold nanoparticles through metal–ligand interfaces

Author

Rafael Luque, Manuel Cano, David Alba-Molina, Juan J. Giner-Casares, Enrique Rodríguez-Castellón, María T. Martín-Romero, Alain R. Puente Santiago, and Luis Camacho

Subjects

Materials science, Renewable Energy, Sustainability and the Environment, Ligand, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, Underpotential deposition, Electrocatalyst, Oxygen reduction activity, chemistry.chemical_compound, Chemical engineering, chemistry, Colloidal gold, Bifunctional electrocatalyst, Water splitting, General Materials Science, 0210 nano-technology, Bifunctional, Hydrogen evolution, Electrocatalysis, Hydrogen production

Abstract

The oxygen reduction (ORR) and hydrogen evolution (HER) reactions are the most important cathodic processes involved in fuel cell and water splitting technologies, respectively. The development of bifunctional electrocatalyst materials plays a key role in the rapid advancement of these hydrogen-based renewable energy strategies. This work proposes citrate-stabilized gold nanoparticles (AuNPs) as a bifunctional electrocatalyst for ORR and HER. The capping ligand has a great influence on their resulting electrocatalytic performance. A simple ligand exchange method based on concentration gradients has been optimized. The surface structure of the different ligand-stabilized AuNPs was inferred by lead underpotential deposition (Pb-UPD). Static and dynamic electrochemical studies for both ORR and HER have been performed using different ligand-stabilized AuNPs as electrocatalysts, demonstrating that the citrate ligand confers the best performance. This work suggests that non-doped chemically synthesized AuNPs may be suitable as a bifunctional electrocatalyst in fuel cells and hydrogen production.

Published

2019

2. A scientometric study of the research on ion exchange membranes

Author

Bradley P. Ladewig, Shanxue Jiang, Kimberly F. L. Hagesteijn, and Jin Ni

Subjects

Materials science, BIPOLAR MEMBRANES, Research areas, General Chemical Engineering, Chemistry, Multidisciplinary, Proton exchange membrane fuel cell, 02 engineering and technology, 010402 general chemistry, OXYGEN REDUCTION ACTIVITY, 01 natural sciences, AIR-CATHODE, SELECTIVE MEMBRANES, Data_FILES, WATER, Statistical analysis, Science & Technology, Ion exchange, Air cathode, General Chemistry, PERFORMANCE, 021001 nanoscience & nanotechnology, TRANSPORT, 0104 chemical sciences, Chemistry, Membrane, Chemical physics, REVERSE ELECTRODIALYSIS, Physical Sciences, Fuel cells, MICROBIAL FUEL-CELLS, Ion-exchange membranes, CATION-EXCHANGE, 0210 nano-technology

Abstract

A comprehensive scientometric approach was adopted to study the research on ion exchange membranes. The statistical analysis was conducted based on 21 123 publications which were related to the topic of ion exchange membranes. Specifically, from 2001 to 2016, over 18 000 articles were published on ion exchange membranes, indicating researchers' great interest in this topic. Especially, compared to 2001, the number of articles published in 2016 increased approximately six-fold. This trend continued in 2017 since over 2000 articles were published in the year of 2017. Also, these articles were spread across over 1000 different journals, near 100 countries/regions and over 5000 research institutes, revealing the importance of ion exchange membrane as well as the broad research interest in this field. Besides, the properties and applications of ion exchange membranes were also discussed statistically. Furthermore, keywords analysis indicated that fuel cell and proton exchange membrane had the highest cooccurrence frequency. Finally, research areas analysis revealed that ion exchange membranes had a close relation with chemistry, energy and materials.

Published

2018