Uruc, S. Et Al. 2023. Heteroatom-doped graphene oxide-based conductive ink: synthesis, characterization and investigation of the conductivity properties for flexible sensor technology. New Journal of Chemistry , vol.47, no.26 , 12360-12374.

Uruc, S., Dokur, E., Kurteli, R., GÖRDÜK, Ö., & ŞAHİN, Y., (2023). Heteroatom-doped graphene oxide-based conductive ink: synthesis, characterization and investigation of the conductivity properties for flexible sensor technology. New Journal of Chemistry , vol.47, no.26, 12360-12374.

Uruc, Selen Et Al. "Heteroatom-doped graphene oxide-based conductive ink: synthesis, characterization and investigation of the conductivity properties for flexible sensor technology," New Journal of Chemistry , vol.47, no.26, 12360-12374, 2023

Uruc, Selen Et Al. "Heteroatom-doped graphene oxide-based conductive ink: synthesis, characterization and investigation of the conductivity properties for flexible sensor technology." New Journal of Chemistry , vol.47, no.26, pp.12360-12374, 2023

Uruc, S. Et Al. (2023) . "Heteroatom-doped graphene oxide-based conductive ink: synthesis, characterization and investigation of the conductivity properties for flexible sensor technology." New Journal of Chemistry , vol.47, no.26, pp.12360-12374.

@article{article, author={Selen Uruc Et Al. }, title={Heteroatom-doped graphene oxide-based conductive ink: synthesis, characterization and investigation of the conductivity properties for flexible sensor technology}, journal={New Journal of Chemistry}, year=2023, pages={12360-12374} }