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A Three‐Electrode, Battery‐Type Swagelok Cell for the Evaluation of Secondary Alkaline Batteries: The Case of the Ni–Zn Battery
Author(s) -
Garcia Grecia,
Schuhmann Wolfgang,
Ventosa Edgar
Publication year - 2016
Publication title -
chemelectrochem
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.182
H-Index - 59
ISSN - 2196-0216
DOI - 10.1002/celc.201500474
Subject(s) - electrode , battery (electricity) , palladium hydrogen electrode , alkaline battery , electrochemistry , materials science , standard hydrogen electrode , reversible hydrogen electrode , reference electrode , chemistry , chemical engineering , engineering , electrolyte , power (physics) , physics , quantum mechanics
Abstract Three‐electrode cells are essential in understanding battery materials under operando conditions. A three‐electrode, battery‐type Swagelok cell for electrochemical studies of secondary alkaline batteries, in particular Ni–Zn batteries, is presented. The relevance of the three‐electrode battery‐type cell (i.e. sealed and non‐flooded) configuration is demonstrated as analytical tool with three observations: 1) The Ni electrode is shown to limit the system in the first cycles, while the Zn electrode becomes limiting in subsequent cycles. 2) Non‐woven separators (NWSs) clearly improve the performance of the battery. Besides the known fact of hindering the dendritic growth of Zn, NWSs inhibit the evolution of oxygen and hydrogen at the positive and negative electrodes. 3) The kinetics of the Ni electrode is much slower than that of the Zn electrode, as derived from the charge‐transfer resistance of the Ni electrode, which is substantially larger than that of the Zn electrode.