Electrochemical characteristics of Mg–Ni alloys as anode materials for secondary Li batteries

“…On subsequent cycling, two cathodic and anodic peaks were observed corresponding to the two step lithiation and delithiation process. The cathodic peak at 0.25 V was due to the lithiation of MgS and that observed at 0.005 V was due to the alloying of Li with Mg that is formed during the reduction of MgS [32][33][34]. From previous studies, alloying of Li with Mg is proved to occur below 0.1 V vs Li/Li + in anode materials like pure Mg [33], Mg-Ni Fig .…”

Magnesium Sulphide as Anode Material for Lithium-Ion Batteries

“…On subsequent cycling, two cathodic and anodic peaks were observed corresponding to the two step lithiation and delithiation process. The cathodic peak at 0.25 V was due to the lithiation of MgS and that observed at 0.005 V was due to the alloying of Li with Mg that is formed during the reduction of MgS [32][33][34]. From previous studies, alloying of Li with Mg is proved to occur below 0.1 V vs Li/Li + in anode materials like pure Mg [33], Mg-Ni Fig .…”

Magnesium Sulphide as Anode Material for Lithium-Ion Batteries

“…Kim and coworkers [147] have studied the lithiation of pure Mg. They have obtained a capacity of 3070 mAh/g for the first lithiation (probably going deep into the β phase region) and 2150 mAh/g for the first delithiation.…”

Alloy-Based Anode Materials

“…However, graphite anodes have lower volumetric energy density and hinder performance improvements of lithium ion batteries 1) . Consequently, anode materials that feature high volumetric energy density such as silicon 2) , magnesium 3) , aluminum 4) and tin 5) are being researched today. Magnesium-based anodes have many advantages, including low mass density, high workability, low cost and a very high theoretical capacity up to 3350 mAhg −1 .…”

Microstructures and Charge-Discharging Properties of Selective Laser Sintering Applied to the Anode of Magnesium Matrix