M. A. Boda Et Al. , "Enhancement in photoelectrochemical ability via re-engineering the band gap of multi-podal titania nanotubes on functionalizing with copper oxide nano-cubes," Applied Surface Science , vol.499, 2020
Boda, M. A. Et Al. 2020. Enhancement in photoelectrochemical ability via re-engineering the band gap of multi-podal titania nanotubes on functionalizing with copper oxide nano-cubes. Applied Surface Science , vol.499 .
Boda, M. A., Shah, M. A., Khan, M., & Çırak, Ç., (2020). Enhancement in photoelectrochemical ability via re-engineering the band gap of multi-podal titania nanotubes on functionalizing with copper oxide nano-cubes. Applied Surface Science , vol.499.
Boda, Muzaffar Et Al. "Enhancement in photoelectrochemical ability via re-engineering the band gap of multi-podal titania nanotubes on functionalizing with copper oxide nano-cubes," Applied Surface Science , vol.499, 2020
Boda, Muzaffar A. Et Al. "Enhancement in photoelectrochemical ability via re-engineering the band gap of multi-podal titania nanotubes on functionalizing with copper oxide nano-cubes." Applied Surface Science , vol.499, 2020
Boda, M. A. Et Al. (2020) . "Enhancement in photoelectrochemical ability via re-engineering the band gap of multi-podal titania nanotubes on functionalizing with copper oxide nano-cubes." Applied Surface Science , vol.499.
@article{article, author={Muzaffar Ahmad Boda Et Al. }, title={Enhancement in photoelectrochemical ability via re-engineering the band gap of multi-podal titania nanotubes on functionalizing with copper oxide nano-cubes}, journal={Applied Surface Science}, year=2020}