1976
DOI: 10.1149/1.2132931
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Anodic Behavior of Lithium in Aqueous Electrolytes: I . Transient Passivation

Abstract: Lithium manifests a transient passivation when it is anodically polarized to ∼ −2.66 NHE in normalLiOH electrolytes. The duration of the passivation ranges from seconds to hours. The occurrence of the passivation is independent of electrolyte concentration, flow velocity, anode‐cathode contact pressure, and of the polarization technique used. The duration of the transient is proportional to electrolyte concentration, the more dilute the solution the shorter the time. The passivation is believed due to the fo… Show more

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Cited by 77 publications
(65 citation statements)
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“…This category was fi rst investigated in the 1970s at Lockheed. [ 47,48 ] In this system, a lithium metal anode is immersed into a concentrated LiOH aqueous solution and leads, during discharge, to the formation of LiOH, which is partially soluble in the electrolyte: [49][50][51][52] 2Li…”
Section: Reviewmentioning
confidence: 99%
“…This category was fi rst investigated in the 1970s at Lockheed. [ 47,48 ] In this system, a lithium metal anode is immersed into a concentrated LiOH aqueous solution and leads, during discharge, to the formation of LiOH, which is partially soluble in the electrolyte: [49][50][51][52] 2Li…”
Section: Reviewmentioning
confidence: 99%
“…[ 3 ] In particular, the Li-air system releases a superior theoretical specifi c energy of nearly 11 700 Wh Kg −1 , which is close to the value of gasoline (13 000 Wh Kg −1 ), making Li-air batteries extremely attractive for EVs/HEVs, stationary energy storage, and electrical energy storage for grid. [4][5][6][7] The Li-air (or Li-O 2 ) battery was fi rst proposed by Littauer and Tsai in 1976, [ 8 ] but its progress was very slow until Abraham and Jiang presented the fi rst prototype of Li-O 2 battery with polymer electrolyte in 1996. [ 4 ] Since the rechargeability of Li-O 2 battery was demonstrated by Bruce et al in 2006, [ 9 ] great advances have been made in recent years.…”
Section: Doi: 101002/aenm201301960mentioning
confidence: 99%
“…Source: (Bard, Parsons and Jordan, 1985 seen that E = À2.75V SHE is more positive than the equilibrium potential (E e ) of reactions (1), (2) and slightly more positive than the equilibrium potential (E e ) of reaction (3). Consequently EÀE e > 0 for these reactions, and according to Pourbaix's equation [29] for non-equilibrium process, i.e.…”
Section: Tablementioning
confidence: 99%
“…Earlier studies revealed that a passive film formed on the lithium anode, which consisted of the compact LiH close to the metal and a porous outer layer LiOH, LiOHÁH 2 O in contact with the alkaline electrolyte. The bi-layer films control the equilibrium of the solution and precipitation at the lithium anode [3][4][5][6][7][8][9]. Earlier efforts modified the electrolytes by introducing additives to make the electrolytes less corrosive.…”
Section: Introductionmentioning
confidence: 99%