The Ni3Sn4 intermetallic as a novel electrode in lithium cells

“…As seen in the figure, the reduction peak in the potential at 0.2 V is assumed to be due to the electrochemical reaction of Sn component in the Co y Sn alloy involving the formation of the Li x Sn alloy and the separation of Co according to Eq. (1) [13,14]. In contrast, the oxidation peaks corresponding to the reduction peak at 0.20 V were observed at 0.50 and 0.70 V. These peaks may be due to a dealloying reaction from Li x Sn to form Li and Sn according to Eq.…”

Preparation of Co–Sn alloy film as negative electrode for lithium secondary batteries by pulse electrodeposition method

“…As seen in the figure, the reduction peak in the potential at 0.2 V is assumed to be due to the electrochemical reaction of Sn component in the Co y Sn alloy involving the formation of the Li x Sn alloy and the separation of Co according to Eq. (1) [13,14]. In contrast, the oxidation peaks corresponding to the reduction peak at 0.20 V were observed at 0.50 and 0.70 V. These peaks may be due to a dealloying reaction from Li x Sn to form Li and Sn according to Eq.…”

Preparation of Co–Sn alloy film as negative electrode for lithium secondary batteries by pulse electrodeposition method

“…For such stoichiometry the relative equilibrium binary phase diagram foresees the existence of the monoclinic Ni 3 Sn 4 structure (JCPDS 4-851) from 273 K up to 1070 K [6]. The XRD patterns sequence, reported in Fig.…”

“…We initially focused our attention on the NiSn system, and in particular on the Ni 44 Sn 56 atomic % composition, selected in light of its good electrochemical performance [6,20]. For such stoichiometry the relative equilibrium binary phase diagram foresees the existence of the monoclinic Ni 3 Sn 4 structure (JCPDS 4-851) from 273 K up to 1070 K [6].…”

Structural and mechanistic inferences in the mechanochemical synthesis of nanostructured Ni-Sn and Co- Sn alloys

“…Sn Ni alloy can be prepared by di erent technique such as electrodeposition [5], sintering [6], ball milling [7]. In comparison, the electrodeposition presents signi cant advantages, particular * corresponding author; e-mail: mehmetu@sakarya.edu.tr for the preparation materials of Li-ion battery.…”

Electrochemical Performance of Pulse Electrodeposited Sn-Ni/MWCNT Composite Anode for Lithium-Ion Batteries