Amgad Rezk


Enhanced Antimicrobial Activity and Low Phytotoxicity of Acoustically Synthesized Large Aspect Ratio Cu-BTC Metal--Organic Frameworks with Exposed Metal Sites


Journal article


Susan Marqus, Heba Ahmed, Amgad R Rezk, Tien Huynh, Ann Lawrie, Dao Nguyen, Yemima Ehrnst, Chaitali Dekiwadia, Leslie Y Yeo
ACS Applied Materials \& Interfaces, American Chemical Society, 2021, pp. 58309--58318

Cite

Cite

APA
Marqus, S., Ahmed, H., Rezk, A. R., Huynh, T., Lawrie, A., Nguyen, D., … Yeo, L. Y. (2021). Enhanced Antimicrobial Activity and Low Phytotoxicity of Acoustically Synthesized Large Aspect Ratio Cu-BTC Metal--Organic Frameworks with Exposed Metal Sites. ACS Applied Materials \& Interfaces, 13, 58309–58318.

Chicago/Turabian
Marqus, Susan, Heba Ahmed, Amgad R Rezk, Tien Huynh, Ann Lawrie, Dao Nguyen, Yemima Ehrnst, Chaitali Dekiwadia, and Leslie Y Yeo. “Enhanced Antimicrobial Activity and Low Phytotoxicity of Acoustically Synthesized Large Aspect Ratio Cu-BTC Metal--Organic Frameworks with Exposed Metal Sites.” ACS Applied Materials \& Interfaces 13 (2021): 58309–58318.

MLA
Marqus, Susan, et al. “Enhanced Antimicrobial Activity and Low Phytotoxicity of Acoustically Synthesized Large Aspect Ratio Cu-BTC Metal--Organic Frameworks with Exposed Metal Sites.” ACS Applied Materials \& Interfaces, vol. 13, American Chemical Society, 2021, pp. 58309–18.