M. E. TORBALI And E. Ü. YILMAZ, "Synergistic effect of biomass-derived carbon and conducting polymer coatings on the supercapacitive energy storage performance of TiO2," MATERIALS TESTING , vol.62, no.8, pp.814-819, 2020
TORBALI, M. E. And YILMAZ, E. Ü. 2020. Synergistic effect of biomass-derived carbon and conducting polymer coatings on the supercapacitive energy storage performance of TiO2. MATERIALS TESTING , vol.62, no.8 , 814-819.
TORBALI, M. E., & YILMAZ, E. Ü., (2020). Synergistic effect of biomass-derived carbon and conducting polymer coatings on the supercapacitive energy storage performance of TiO2. MATERIALS TESTING , vol.62, no.8, 814-819.
TORBALI, MUHAMMET, And ECE ÜNÜR YILMAZ. "Synergistic effect of biomass-derived carbon and conducting polymer coatings on the supercapacitive energy storage performance of TiO2," MATERIALS TESTING , vol.62, no.8, 814-819, 2020
TORBALI, MUHAMMET E. And YILMAZ, ECE Ü. . "Synergistic effect of biomass-derived carbon and conducting polymer coatings on the supercapacitive energy storage performance of TiO2." MATERIALS TESTING , vol.62, no.8, pp.814-819, 2020
TORBALI, M. E. And YILMAZ, E. Ü. (2020) . "Synergistic effect of biomass-derived carbon and conducting polymer coatings on the supercapacitive energy storage performance of TiO2." MATERIALS TESTING , vol.62, no.8, pp.814-819.
@article{article, author={MUHAMMET EBUBEKİR TORBALI And author={ECE ÜNÜR YILMAZ}, title={Synergistic effect of biomass-derived carbon and conducting polymer coatings on the supercapacitive energy storage performance of TiO2}, journal={MATERIALS TESTING}, year=2020, pages={814-819} }