Kiliç, B. Et Al. 2015. Band gap engineering and modifying surface of TiO2 nanostructures by Fe2O3 for enhanced-performance of dye sensitized solar cell. Materials Science in Semiconductor Processing , vol.31, no.1 , 363-371.

Kiliç, B., Gedik, N., Mucur, S. P., Hergul, A. S., & GÜR, E., (2015). Band gap engineering and modifying surface of TiO2 nanostructures by Fe2O3 for enhanced-performance of dye sensitized solar cell. Materials Science in Semiconductor Processing , vol.31, no.1, 363-371.

Kiliç, Bayram Et Al. "Band gap engineering and modifying surface of TiO2 nanostructures by Fe2O3 for enhanced-performance of dye sensitized solar cell," Materials Science in Semiconductor Processing , vol.31, no.1, 363-371, 2015

Kiliç, Bayram Et Al. "Band gap engineering and modifying surface of TiO2 nanostructures by Fe2O3 for enhanced-performance of dye sensitized solar cell." Materials Science in Semiconductor Processing , vol.31, no.1, pp.363-371, 2015

Kiliç, B. Et Al. (2015) . "Band gap engineering and modifying surface of TiO2 nanostructures by Fe2O3 for enhanced-performance of dye sensitized solar cell." Materials Science in Semiconductor Processing , vol.31, no.1, pp.363-371.

@article{article, author={Bayram Kiliç Et Al. }, title={Band gap engineering and modifying surface of TiO2 nanostructures by Fe2O3 for enhanced-performance of dye sensitized solar cell}, journal={Materials Science in Semiconductor Processing}, year=2015, pages={363-371} }