Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Electrochemical Performance of NiAl Activated Cathode for the Green Hydrogen Production
View through CrossRef
Abstract
This work is devoted to the elaboration of Ni68%Al32% wt. (NiAl) intermetallic compound highly electro-active and cost-effective electrode materials using an induction furnace utilized as cathodes in alkaline water reduction into hydrogen. The XRD analysis showed the formation of the NiAl phase with an average crystallite size of 44.13 nm. The SEM/EDS results confirm the XRD results with an average grain size of 50 µm. The chemical activation of Aluminum from NiAl was carried out on NaOH (25%) solution at 353 K for 72 h. The Optical Profilometry and UV-visible spectrophotometry confirmed the formation of Ni-Raney-type electrodes with high specific surface area. The activated NiAl electrodes resulted in remarkable efficiency for the hydrogen evolution reaction (HER), 13 times higher than the non-activated electrode. The comparison with literature data reveals that the efficiency of the NiAl cathode has increased by 120% compared to pure Ni.
Research Square Platform LLC
Title: Electrochemical Performance of NiAl Activated Cathode for the Green Hydrogen Production
Description:
Abstract
This work is devoted to the elaboration of Ni68%Al32% wt.
(NiAl) intermetallic compound highly electro-active and cost-effective electrode materials using an induction furnace utilized as cathodes in alkaline water reduction into hydrogen.
The XRD analysis showed the formation of the NiAl phase with an average crystallite size of 44.
13 nm.
The SEM/EDS results confirm the XRD results with an average grain size of 50 µm.
The chemical activation of Aluminum from NiAl was carried out on NaOH (25%) solution at 353 K for 72 h.
The Optical Profilometry and UV-visible spectrophotometry confirmed the formation of Ni-Raney-type electrodes with high specific surface area.
The activated NiAl electrodes resulted in remarkable efficiency for the hydrogen evolution reaction (HER), 13 times higher than the non-activated electrode.
The comparison with literature data reveals that the efficiency of the NiAl cathode has increased by 120% compared to pure Ni.
Related Results
Absolute error analysis of virtual cathode measurement in a vacuum
Absolute error analysis of virtual cathode measurement in a vacuum
The virtual cathode is an important phenomenon in the process of thermionic emission, and it is widely present in a variety of electronic devices and systems such as vacuum tubes, ...
Effect of Calcination Temperature on Hydrogen Production via Ethanol Dry Reforming Over Ni/Al2O3 Catalyst
Effect of Calcination Temperature on Hydrogen Production via Ethanol Dry Reforming Over Ni/Al2O3 Catalyst
Ni/Al2O3 catalysts were prepared by the wet-impregnation method and calcined at different temperatures (500°C, 600°C and 700°C) to obtain NiAl-1, NiAl-2 and NiAl-3 respectively. Ni...
Modélisation d'une cathode creuse pour propulseur à plasma
Modélisation d'une cathode creuse pour propulseur à plasma
La cathode creuse est un élément clef des propulseurs à plasma. Dans un propulseur à plasma, un gaz propulsif est ionisé dans un canal de décharge puis accéléré hors de celui-ci af...
Enhanced Electrochemical Activity of NiAl Cathode for Hydrogen Production
Enhanced Electrochemical Activity of NiAl Cathode for Hydrogen Production
Abstract
This work is devoted to the elaboration of Ni68%Al32% wt. (NiAl) intermetallic compound highly electro-active and cost-effective electrode materials using an induc...
Structural Stability of Nanocrystalline NiAl
Structural Stability of Nanocrystalline NiAl
Abstract
NiAl is an important high temperature structural material, with a high melting point (1640°C), low density and excellent high temperature oxidation resistan...
The Effects of Nanostructure on the Strengthening of NiAl
The Effects of Nanostructure on the Strengthening of NiAl
ABSTRACTThe relationship between microhardness and grain size was investigated for nanocrystalline and coarse-grained stoichiometric intermetallic NiAl. The nanocrystalline NiAl sp...
A Theoretical Investigation of the Epitaxial Relationship of NiAl/AlAs
A Theoretical Investigation of the Epitaxial Relationship of NiAl/AlAs
The epitaxial relationship between NiAl and AlAs is investigated theoretically, using cohesive energy calculations based on empirical interatomic potentials. We consider variou...
Impact of Cathode Current Collector on High Temperature PEM Water Electrolysis
Impact of Cathode Current Collector on High Temperature PEM Water Electrolysis
1. Introduction
Polymer Electrolyte Membrane Water Electrolysis (PEMWE) is a hydrogen production method, which has advantages on conversion efficiency, compactness ...