M. Kaplan And L. UZUN, "Immunoaffinity silica nanoparticles as efficient nanoprobes for selectively capturing transferrin molecules," Materials Chemistry and Physics , vol.296, 2023
Kaplan, M. And UZUN, L. 2023. Immunoaffinity silica nanoparticles as efficient nanoprobes for selectively capturing transferrin molecules. Materials Chemistry and Physics , vol.296 .
Kaplan, M., & UZUN, L., (2023). Immunoaffinity silica nanoparticles as efficient nanoprobes for selectively capturing transferrin molecules. Materials Chemistry and Physics , vol.296.
Kaplan, Mesut, And LOKMAN UZUN. "Immunoaffinity silica nanoparticles as efficient nanoprobes for selectively capturing transferrin molecules," Materials Chemistry and Physics , vol.296, 2023
Kaplan, Mesut And UZUN, LOKMAN. "Immunoaffinity silica nanoparticles as efficient nanoprobes for selectively capturing transferrin molecules." Materials Chemistry and Physics , vol.296, 2023
Kaplan, M. And UZUN, L. (2023) . "Immunoaffinity silica nanoparticles as efficient nanoprobes for selectively capturing transferrin molecules." Materials Chemistry and Physics , vol.296.
@article{article, author={Mesut Kaplan And author={LOKMAN UZUN}, title={Immunoaffinity silica nanoparticles as efficient nanoprobes for selectively capturing transferrin molecules}, journal={Materials Chemistry and Physics}, year=2023}