D. Tascioglu Et Al. , "Physically unclonable security patterns created by electrospinning, and authenticated by two-step validation method," NANOTECHNOLOGY , vol.33, no.9, 2022
Tascioglu, D. Et Al. 2022. Physically unclonable security patterns created by electrospinning, and authenticated by two-step validation method. NANOTECHNOLOGY , vol.33, no.9 .
Tascioglu, D., Atci, A., Unluturk, S. S., & Ozcelik, S., (2022). Physically unclonable security patterns created by electrospinning, and authenticated by two-step validation method. NANOTECHNOLOGY , vol.33, no.9.
Tascioglu, Didem Et Al. "Physically unclonable security patterns created by electrospinning, and authenticated by two-step validation method," NANOTECHNOLOGY , vol.33, no.9, 2022
Tascioglu, Didem Et Al. "Physically unclonable security patterns created by electrospinning, and authenticated by two-step validation method." NANOTECHNOLOGY , vol.33, no.9, 2022
Tascioglu, D. Et Al. (2022) . "Physically unclonable security patterns created by electrospinning, and authenticated by two-step validation method." NANOTECHNOLOGY , vol.33, no.9.
@article{article, author={Didem Tascioglu Et Al. }, title={Physically unclonable security patterns created by electrospinning, and authenticated by two-step validation method}, journal={NANOTECHNOLOGY}, year=2022}