H. Behzad Et Al. , "High electrochemical performance of Cu (x) Co3-x O-4 nanostructured electrodes: the effect of spinel inversion and annealing temperature," IONICS , vol.23, no.9, pp.2429-2442, 2017
Behzad, H. Et Al. 2017. High electrochemical performance of Cu (x) Co3-x O-4 nanostructured electrodes: the effect of spinel inversion and annealing temperature. IONICS , vol.23, no.9 , 2429-2442.
Behzad, H., Ghodsi, F. E., & Karaagac, H., (2017). High electrochemical performance of Cu (x) Co3-x O-4 nanostructured electrodes: the effect of spinel inversion and annealing temperature. IONICS , vol.23, no.9, 2429-2442.
Behzad, H., F. E. Ghodsi, And H. Karaagac. "High electrochemical performance of Cu (x) Co3-x O-4 nanostructured electrodes: the effect of spinel inversion and annealing temperature," IONICS , vol.23, no.9, 2429-2442, 2017
Behzad, H. Et Al. "High electrochemical performance of Cu (x) Co3-x O-4 nanostructured electrodes: the effect of spinel inversion and annealing temperature." IONICS , vol.23, no.9, pp.2429-2442, 2017
Behzad, H. Ghodsi, F. E. And Karaagac, H. (2017) . "High electrochemical performance of Cu (x) Co3-x O-4 nanostructured electrodes: the effect of spinel inversion and annealing temperature." IONICS , vol.23, no.9, pp.2429-2442.
@article{article, author={H. Behzad Et Al. }, title={High electrochemical performance of Cu (x) Co3-x O-4 nanostructured electrodes: the effect of spinel inversion and annealing temperature}, journal={IONICS}, year=2017, pages={2429-2442} }