Add to ORKGWe report a detailed evaluation of Ge-substituted LaNi_5 for electrochemical application as a negative electrode in alkaline rechargeable cells. Alloys with small substitutions of Ge for Ni show operating pressures, chargeability, cyclic lifetime, and kinetics for hydrogen absorption and desorption all superior to those found in many other substituted LaNi_5 alloys. These improved properties were achieved with a minimal reduction in hydrogen storage capacity
AbstractThe cold crucible levitation melting prepared LaNi3.2-xMn03Cox (x = 0.2 ∼ 0.8) series alloys...
The electrochemical characteristics of metal hydride electrodes made from either LaNi4.7Al0.3 or Mm0...
Affordable price, high abundance of magnesium and high densities of hydrogenin the Mg-based hydrides...
We report a detailed evaluation of Ge-substituted LaNi_5 for electrochemical application as a negati...
Electrochemical studies were performed on LaNi5–xGex metal hydride alloys with 0 <= x <= 0.5. We car...
Electrochemical studies were performed on LaNi5–xSnx with 0 <= x <= 0.5. We measured the effect of t...
This work reports studies on the electrochemical behavior of AB5-type hydrogen storage alloys, forme...
The abili[y of certain intennctallic alloys to reversibly absorb significant amounts of hydrogen at ...
The capacitive and kinetic parameters of hydride electrodes obtained on the basis of single-phase La...
LaNi5-type alloys are commercial materials for the negative electrode in Ni-MH rechargeable batterie...
Nickel-metal hydride batteries using hydrogen storage alloys as the negative electrode materials hav...
AbstractThe effect of Mg substitution for La on microstructure, hydrogen storage and electrochemical...
The objective of this project is to elucidate the compositional and structural parameters that affec...
Les batteries Ni-MH sont utilisées dans diverses applications, aussi bien stationnaires (panneaux so...
LaNi5 alloys are been extensively study as hydrogen storage material due their easy activation and g...
AbstractThe cold crucible levitation melting prepared LaNi3.2-xMn03Cox (x = 0.2 ∼ 0.8) series alloys...
The electrochemical characteristics of metal hydride electrodes made from either LaNi4.7Al0.3 or Mm0...
Affordable price, high abundance of magnesium and high densities of hydrogenin the Mg-based hydrides...
We report a detailed evaluation of Ge-substituted LaNi_5 for electrochemical application as a negati...
Electrochemical studies were performed on LaNi5–xGex metal hydride alloys with 0 <= x <= 0.5. We car...
Electrochemical studies were performed on LaNi5–xSnx with 0 <= x <= 0.5. We measured the effect of t...
This work reports studies on the electrochemical behavior of AB5-type hydrogen storage alloys, forme...
The abili[y of certain intennctallic alloys to reversibly absorb significant amounts of hydrogen at ...
The capacitive and kinetic parameters of hydride electrodes obtained on the basis of single-phase La...
LaNi5-type alloys are commercial materials for the negative electrode in Ni-MH rechargeable batterie...
Nickel-metal hydride batteries using hydrogen storage alloys as the negative electrode materials hav...
AbstractThe effect of Mg substitution for La on microstructure, hydrogen storage and electrochemical...
The objective of this project is to elucidate the compositional and structural parameters that affec...
Les batteries Ni-MH sont utilisées dans diverses applications, aussi bien stationnaires (panneaux so...
LaNi5 alloys are been extensively study as hydrogen storage material due their easy activation and g...
AbstractThe cold crucible levitation melting prepared LaNi3.2-xMn03Cox (x = 0.2 ∼ 0.8) series alloys...
The electrochemical characteristics of metal hydride electrodes made from either LaNi4.7Al0.3 or Mm0...
Affordable price, high abundance of magnesium and high densities of hydrogenin the Mg-based hydrides...