H. N. Gurbuz Et Al. , "Development of flexible nicotine sensors by inkjet printing of heteroatom-doped 3D V2C MXene nanoflower/holey carbon nanotube-based inks," FlatChem , no.49, pp.100811, 2025
Gurbuz, H. N. Et Al. 2025. Development of flexible nicotine sensors by inkjet printing of heteroatom-doped 3D V2C MXene nanoflower/holey carbon nanotube-based inks. FlatChem , no.49 , 100811.
Gurbuz, H. N., Tok, K. C., Gümüştaş, M., Cagil, E. M., Ipekci, H. H., & Uzunoğlu, A., (2025). Development of flexible nicotine sensors by inkjet printing of heteroatom-doped 3D V2C MXene nanoflower/holey carbon nanotube-based inks. FlatChem , no.49, 100811.
Gurbuz, Havva Et Al. "Development of flexible nicotine sensors by inkjet printing of heteroatom-doped 3D V2C MXene nanoflower/holey carbon nanotube-based inks," FlatChem , no.49, 100811, 2025
Gurbuz, Havva N. Et Al. "Development of flexible nicotine sensors by inkjet printing of heteroatom-doped 3D V2C MXene nanoflower/holey carbon nanotube-based inks." FlatChem , no.49, pp.100811, 2025
Gurbuz, H. N. Et Al. (2025) . "Development of flexible nicotine sensors by inkjet printing of heteroatom-doped 3D V2C MXene nanoflower/holey carbon nanotube-based inks." FlatChem , no.49, p.100811.
@article{article, author={Havva Nur Gurbuz Et Al. }, title={Development of flexible nicotine sensors by inkjet printing of heteroatom-doped 3D V2C MXene nanoflower/holey carbon nanotube-based inks}, journal={FlatChem}, year=2025, pages={100811} }