D. Erdogan Et Al. , "A versatile bio-inspired material platform for catalytic applications: micron-sized "buckyball-shaped" TiO2 structures," RSC ADVANCES , vol.5, no.58, pp.47174-47182, 2015
Erdogan, D. Et Al. 2015. A versatile bio-inspired material platform for catalytic applications: micron-sized "buckyball-shaped" TiO2 structures. RSC ADVANCES , vol.5, no.58 , 47174-47182.
Erdogan, D., Solouki, T., & Ozensoy, E., (2015). A versatile bio-inspired material platform for catalytic applications: micron-sized "buckyball-shaped" TiO2 structures. RSC ADVANCES , vol.5, no.58, 47174-47182.
Erdogan, DENİZ, Touradj Solouki, And Emrah Ozensoy. "A versatile bio-inspired material platform for catalytic applications: micron-sized "buckyball-shaped" TiO2 structures," RSC ADVANCES , vol.5, no.58, 47174-47182, 2015
Erdogan, DENİZ A. Et Al. "A versatile bio-inspired material platform for catalytic applications: micron-sized "buckyball-shaped" TiO2 structures." RSC ADVANCES , vol.5, no.58, pp.47174-47182, 2015
Erdogan, D. Solouki, T. And Ozensoy, E. (2015) . "A versatile bio-inspired material platform for catalytic applications: micron-sized "buckyball-shaped" TiO2 structures." RSC ADVANCES , vol.5, no.58, pp.47174-47182.
@article{article, author={DENİZ ALTUNÖZ ERDOĞAN Et Al. }, title={A versatile bio-inspired material platform for catalytic applications: micron-sized "buckyball-shaped" TiO2 structures}, journal={RSC ADVANCES}, year=2015, pages={47174-47182} }