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Facile synthesis of nanocrystalline β-SnWO4: as a photocatalyst, biosensor and anode for Li-ion battery

Latest updated: May 29, 2020

Authors: N. S. Pavithra Shivaraj B. Patil S. R. Kiran Kumar Fahad A Alharthi G. Nagaraju

DOi: doi.org/10.1007/s42452-019-1163-3/SN Applied Sciences (2019) 1:1123

 

Abstract

Here, we have successfully synthesised β-SnWO4 Nps via simple and low-cost co-precipitation method. XRD pattern confrms the wolframite cubic structure of β-SnWO4 Nps which is belonging to P213 or T4 space group with an average crystallite size of ~38 nm. FTIR spectrum of β-SnWO4 Nps shows the bands at 620–825 cm−1 is assigned to characteristical stretching and bending vibrational modes of WO6 6, W–W bonds and stretching vibration of W–O–W bridging bonds in β-SnWO4. UV-DRS spectrum shows the strong absorption band edge at 604 nm and the estimated bandgap of β-SnWO4 Nps is found to be 1.9 eV. The β-SnWO4 shows excellent photocatalytic activity against indigo carminedye under various conditions of β-SnWO4 Nps. In addition to this, the electrochemical senor performance toward the quantification of dopamine at nanomolar concentration and anode material for Li-ion batteries by showing high reversible discharge/charge capacity was explored.

 

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Keywords β-SnWO4 · Photocatalytic degradation · Biosensing · Li-ion battery

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