Yudar, H. H. Et Al. 2017. Effect of XRD relative intensities of the Li (002) on surface, optical and electrochemical impedance spectroscopy analyses of the deposited LiCoO2 thin film. Journal of Materials Science: Materials in Electronics , vol.28, no.13 , 9289-9294.

Yudar, H. H., Pat, S., Özen, S., Şenay, V., Korkmaz, Ş., & Pat, Z., (2017). Effect of XRD relative intensities of the Li (002) on surface, optical and electrochemical impedance spectroscopy analyses of the deposited LiCoO2 thin film. Journal of Materials Science: Materials in Electronics , vol.28, no.13, 9289-9294.

Yudar, H. Et Al. "Effect of XRD relative intensities of the Li (002) on surface, optical and electrochemical impedance spectroscopy analyses of the deposited LiCoO2 thin film," Journal of Materials Science: Materials in Electronics , vol.28, no.13, 9289-9294, 2017

Yudar, H. H. Et Al. "Effect of XRD relative intensities of the Li (002) on surface, optical and electrochemical impedance spectroscopy analyses of the deposited LiCoO2 thin film." Journal of Materials Science: Materials in Electronics , vol.28, no.13, pp.9289-9294, 2017

Yudar, H. H. Et Al. (2017) . "Effect of XRD relative intensities of the Li (002) on surface, optical and electrochemical impedance spectroscopy analyses of the deposited LiCoO2 thin film." Journal of Materials Science: Materials in Electronics , vol.28, no.13, pp.9289-9294.

@article{article, author={H. Hakan Yudar Et Al. }, title={Effect of XRD relative intensities of the Li (002) on surface, optical and electrochemical impedance spectroscopy analyses of the deposited LiCoO2 thin film}, journal={Journal of Materials Science: Materials in Electronics}, year=2017, pages={9289-9294} }