2019
DOI: 10.3390/ma12132134
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Silicon and Iron as Resource-Efficient Anode Materials for Ambient-Temperature Metal-Air Batteries: A Review

Abstract: Metal-air batteries provide a most promising battery technology given their outstanding potential energy densities, which are desirable for both stationary and mobile applications in a “beyond lithium-ion” battery market. Silicon- and iron-air batteries underwent less research and development compared to lithium- and zinc-air batteries. Nevertheless, in the recent past, the two also-ran battery systems made considerable progress and attracted rising research interest due to the excellent resource-efficiency of… Show more

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Cited by 63 publications
(42 citation statements)
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References 229 publications
(483 reference statements)
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“…The magnitude of the peaks is relatively small (<±5 mA/cm 2 ) and would most probably be eliminated when the IF surface has been fully coated by the Zn particles. The peaks were Energies 2020, 13, 1429 6 of 18 in accordance with slight oxidation of iron into Fe 2+ and Fe 3+ ions while reacting with the hydroxide ions from the electrolyte, according to Equations (1)-(3) [30]:…”
Section: Electrochemical Characterizationmentioning
confidence: 99%
“…The magnitude of the peaks is relatively small (<±5 mA/cm 2 ) and would most probably be eliminated when the IF surface has been fully coated by the Zn particles. The peaks were Energies 2020, 13, 1429 6 of 18 in accordance with slight oxidation of iron into Fe 2+ and Fe 3+ ions while reacting with the hydroxide ions from the electrolyte, according to Equations (1)-(3) [30]:…”
Section: Electrochemical Characterizationmentioning
confidence: 99%
“…Increased demand on new battery technologies for electrical energy storage devices, possessing very high-theoretical energy densities and being abundant in terms of resource availability motivate the ongoing research on metal-air batteries progressively [1][2][3][4][5][6][7][8][9]. Among the resource-efficient anode materials, the highest theoretical energy densities can be realized with aluminium and silicon; specific energies are 8091 Wh kg Al −1 and 8461 Wh kg Si −1 while energy densities are 21,845 Wh L Al −1 and 19,715 Wh L Si −1 .…”
Section: Introductionmentioning
confidence: 99%
“…Iron-air batteries are promising environmentally friendly battery alternatives, because iron is a widely available, low-cost, safe-to-handle, easily recycled metal [1][2][3]. Iron-air batteries are of particular interest, since they have a high specific energy density 764 W h kg −1 Fe and capacity of 1273 mA h g −1 Fe [4,5].…”
Section: Introductionmentioning
confidence: 99%
“…The thinness and low density of the positive electrode contribute to the high energy density of iron-air batteries. The electrochemistry of the cell is as follows: During discharge, the iron-electrode undergoes two separate processes, firstly oxidation of metallic iron to form iron hydroxide (1), and then further oxidation to magnetite (2) (or other iron oxides such as goethite, a more detailed explanation of the underlying mechanism can be found in [3,6,7]). The air electrode reduces oxygen obtained from the air surrounding the cell, converting it into hydroxide species (3) within the electrolyte [8,9].…”
Section: Introductionmentioning
confidence: 99%