Fabrication of belt-like VO2(M)@C core-shell structured composite to improve the electrochemical properties of VO2(M)

VO₂(M) nanobelts encapsulated into carbon core–shell structured composite (VO₂(M)@C) was successfully synthesized by the thermal treatment with the precursor V₃O₇·H₂O@C composite under the inert atmosphere. The as-obtained sample was characterized by XRD, EDS, EA, FT-IR, Raman, SEM and TEM measurements. The core exhibited monoclinic phase VO₂(M) and the carbon coated on the surface of VO₂(M) was amorphous. The average thickness of carbon was about 18.5 nm. The possible formation mechanism of VO₂(M)@C was proposed as that the reaction underwent the solid state reaction by the interface reaction between V₃O₇ core and carbon shell. Furthermore, VO₂(M) and VO₂(M)@C composite were explored as the cathode materials to apply in lithium-ion batteries, indicating that the VO₂(M)@C composite electrode exhibited the better electrochemical properties than that of pure VO₂(M), achieving the aim of improving the electrochemical properties of VO₂(M).