S. Savaedi Et Al. , "Excitation-independent deep-blue emitting carbon dots with 62% emission quantum efficiency and monoexponential decay profile for high-resolution fingerprint identification," Nanotechnology , vol.33, no.44, 2022
Savaedi, S. Et Al. 2022. Excitation-independent deep-blue emitting carbon dots with 62% emission quantum efficiency and monoexponential decay profile for high-resolution fingerprint identification. Nanotechnology , vol.33, no.44 .
Savaedi, S., Soheyli, E., Zheng, G., Lou, Q., Sahraei, R., & Shan, C., (2022). Excitation-independent deep-blue emitting carbon dots with 62% emission quantum efficiency and monoexponential decay profile for high-resolution fingerprint identification. Nanotechnology , vol.33, no.44.
Savaedi, Soheyla Et Al. "Excitation-independent deep-blue emitting carbon dots with 62% emission quantum efficiency and monoexponential decay profile for high-resolution fingerprint identification," Nanotechnology , vol.33, no.44, 2022
Savaedi, Soheyla Et Al. "Excitation-independent deep-blue emitting carbon dots with 62% emission quantum efficiency and monoexponential decay profile for high-resolution fingerprint identification." Nanotechnology , vol.33, no.44, 2022
Savaedi, S. Et Al. (2022) . "Excitation-independent deep-blue emitting carbon dots with 62% emission quantum efficiency and monoexponential decay profile for high-resolution fingerprint identification." Nanotechnology , vol.33, no.44.
@article{article, author={Soheyla Savaedi Et Al. }, title={Excitation-independent deep-blue emitting carbon dots with 62% emission quantum efficiency and monoexponential decay profile for high-resolution fingerprint identification}, journal={Nanotechnology}, year=2022}