Vanadium pentoxide (V2O5) is most important family member of vanadium oxides. Recently, it
has gain great interest of researchers in many fields due to its intrinsic properties and potential
applications. The layer of vanadium pentoxide is weakly bound, due to this property V2O5 is an
gorgeous applicant for several technological uses particularly in chemical sensors and lithiumion batteries. In present work we fabricated V2O5 super-long nanobelts via a facile synthesis
method. The x-ray diffraction (XRD) pattern shows an excellent match with available literature.
The scanning of electron microscopy (SEM) shows a clear image of nanobelts. The XRD results
confirm that there was no other phase than V2O5 within the limitation of experimental
measurements. These super-long nanobelts can be favorable cathode material for afterward
generation of lithium ion batteries LIBs, due to its short charge and plentiful properties, as well
as its variation of organization numbers and oxidation positions.