M. Can Et Al. , "An amino acid, L-Glutamic acid-based metal-organic frameworks and their antibacterial, blood compatibility, biocompatibility, and sensor properties," MICROPOROUS AND MESOPOROUS MATERIALS , vol.309, 2020
Can, M. Et Al. 2020. An amino acid, L-Glutamic acid-based metal-organic frameworks and their antibacterial, blood compatibility, biocompatibility, and sensor properties. MICROPOROUS AND MESOPOROUS MATERIALS , vol.309 .
Can, M., Demirci, S., Sunol, A. K., & ŞAHİNER, N., (2020). An amino acid, L-Glutamic acid-based metal-organic frameworks and their antibacterial, blood compatibility, biocompatibility, and sensor properties. MICROPOROUS AND MESOPOROUS MATERIALS , vol.309.
Can, Mehmet Et Al. "An amino acid, L-Glutamic acid-based metal-organic frameworks and their antibacterial, blood compatibility, biocompatibility, and sensor properties," MICROPOROUS AND MESOPOROUS MATERIALS , vol.309, 2020
Can, Mehmet Et Al. "An amino acid, L-Glutamic acid-based metal-organic frameworks and their antibacterial, blood compatibility, biocompatibility, and sensor properties." MICROPOROUS AND MESOPOROUS MATERIALS , vol.309, 2020
Can, M. Et Al. (2020) . "An amino acid, L-Glutamic acid-based metal-organic frameworks and their antibacterial, blood compatibility, biocompatibility, and sensor properties." MICROPOROUS AND MESOPOROUS MATERIALS , vol.309.
@article{article, author={Mehmet Can Et Al. }, title={An amino acid, L-Glutamic acid-based metal-organic frameworks and their antibacterial, blood compatibility, biocompatibility, and sensor properties}, journal={MICROPOROUS AND MESOPOROUS MATERIALS}, year=2020}