We prepared nano-sized tin (IV) oxide (SnO(sub2)) via molten-salt technique: heating a mixture of tin tetrachloride, lithium nitrate and lithium chloride at 280 °C in air. The powders are characterized by X-ray diffraction and transmission scanning microscopy techniques. The XRD studies showed a structure similar to tetragonal structure. The cyclic voltammetry studies showed characteristic cathodic peak potentials of reduction of Sn(sup4+) to Sn metal in the first cathodic scan, and alloying–de–alloying reaction of Sn at 0.25 and 0.5 V vs. Li for successive cathodic and anodic scans cycled in the voltage range, 0.005–1.0 V. Galvanostatic cycling studies show that reversible capacities (MSM SnO(sub2) prepared at 280 °C) of 640, 720, 890 mAh g(sup-1) in the voltage range, 0.005–1.0 V, 0.005–1.3 V and 0.005–1.5 V, respectively at a current rate of 100 mA g(sup-1). We also discussed the effect of particle size and its electrochemical properties in the voltage range, 0.005–1.0 V.
Reference:
Reddy, M.V, Andreea, L.Y.T, Ling, A.Y, Hwee, J.N.C, Lin, C.A, Admas, S, Loh, K.P, Mathe, M.K, Ozoemena, K.I and Chowdari, B.V.R. 2013. Effect of preparation temperature and cycling voltage range on molten salt method prepared SnO2. Electrochimica Acta, vol. 106, pp 143-148
Reddy, M., Andreea, L., Ling, A., Hwee, J., Lin, C., Admas, S., ... Chowdari, B. (2013). Effect of preparation temperature and cycling voltage range on molten salt method prepared SnO2. http://hdl.handle.net/10204/7509
Reddy, MV, LYT Andreea, AY Ling, JNC Hwee, CA Lin, S Admas, KP Loh, Mahlanyane K Mathe, KI Ozoemena, and BVR Chowdari "Effect of preparation temperature and cycling voltage range on molten salt method prepared SnO2." (2013) http://hdl.handle.net/10204/7509
Reddy M, Andreea L, Ling A, Hwee J, Lin C, Admas S, et al. Effect of preparation temperature and cycling voltage range on molten salt method prepared SnO2. 2013; http://hdl.handle.net/10204/7509.
ResearchSpace
