A method for characterising the sintered iron electrode based on triangular potential sweep voltammetry has been developed. The peak potential separation and (Qc/Qa) at zero sweep rates have bean used as criteria of reversibili. The best composition based on using various iron powders, a - Fe304 and various additives has been recommended. Gasometric method to determine the self-discharge current and discharge studies of nickel-iron cell have been presente
A series of Ni/Fe electrodes have been prepared by electrodeposition of metal salt precursors on dif...
Open-circuit potential—time transients during the discharge of alkaline porous iron electrodes at va...
The electrocatalysis of charge/discharge reactions of alkaline-iron electrodes with and without the ...
In recent years, efforts have been made to produce efficient, porous, iron electrodes. Operational n...
Alkaline Ni-Fe batteries employ sintered iron electrodes as anodes. Iron oxide and copper powders ar...
Alkaline Ni-Fe batteries employ sintered ion electrodes as anodes. Iron oxides and Copper powders ar...
For iron-air batteries, it has yet to be established which iron-containing material is the best cand...
The formation mechanism of alkaline iron electrodes has been studied using galvanostatic polarisatio...
The discharge capacity of a porous iron electrode is controlled by either the extent of interparticl...
Fe-air batteries provide a most promising, resource-efficient battery concept with superior power de...
A pressed-plate Fe electrode for alkalines storage batteries, designed using a statistical method (f...
A pressed-plate Fe electrode for alkalines storage batteries, designed using a statistical method (f...
Open-circuit, potential-time transients during the discharge of alkaline porous iron electrodes at v...
The electrodeposition of nickel-iron (Ni-Fe) alloys was studied under different conditions of metal ...
Iron is one of the most abundant elements in the earth’s crust and its applications are myriad; one ...
A series of Ni/Fe electrodes have been prepared by electrodeposition of metal salt precursors on dif...
Open-circuit potential—time transients during the discharge of alkaline porous iron electrodes at va...
The electrocatalysis of charge/discharge reactions of alkaline-iron electrodes with and without the ...
In recent years, efforts have been made to produce efficient, porous, iron electrodes. Operational n...
Alkaline Ni-Fe batteries employ sintered iron electrodes as anodes. Iron oxide and copper powders ar...
Alkaline Ni-Fe batteries employ sintered ion electrodes as anodes. Iron oxides and Copper powders ar...
For iron-air batteries, it has yet to be established which iron-containing material is the best cand...
The formation mechanism of alkaline iron electrodes has been studied using galvanostatic polarisatio...
The discharge capacity of a porous iron electrode is controlled by either the extent of interparticl...
Fe-air batteries provide a most promising, resource-efficient battery concept with superior power de...
A pressed-plate Fe electrode for alkalines storage batteries, designed using a statistical method (f...
A pressed-plate Fe electrode for alkalines storage batteries, designed using a statistical method (f...
Open-circuit, potential-time transients during the discharge of alkaline porous iron electrodes at v...
The electrodeposition of nickel-iron (Ni-Fe) alloys was studied under different conditions of metal ...
Iron is one of the most abundant elements in the earth’s crust and its applications are myriad; one ...
A series of Ni/Fe electrodes have been prepared by electrodeposition of metal salt precursors on dif...
Open-circuit potential—time transients during the discharge of alkaline porous iron electrodes at va...
The electrocatalysis of charge/discharge reactions of alkaline-iron electrodes with and without the ...
Add to ORKG