Transition Metal-Decorated Mg 12 O 12 Nanoclusters as Biosensors and Efficient Drug Carriers for the Metformin Anticancer Drug

Transition Metal-Decorated Mg 12 O 12 Nanoclusters as Biosensors and Efficient Drug Carriers for the Metformin Anticancer Drug

Drug carriers have been designed and investigated remarkably due to their effective use in the modern medication process. In this study, the decoration of the Mg O nanocluster has been done with transition metals (Ni and Zn) for effective adsorption of metformin (anticancer drug). Decoration of Ni a...

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Veröffentlicht in:ACS omega 2023-03, Vol.8 (12), p.11318-11325
Hauptverfasser: Arshad, Muhammad, Arshad, Shafia, Majeed, Muhammad K, Frueh, Johannes, Chang, Chun, Bilal, Ibtsam, Niaz, Shah Iram, Khan, Muhammad Shahzeb, Tariq, Muhammad Adeel, Yasir Mehboob, Muhammad
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container_end_page 11325
container_issue 12
container_start_page 11318
container_title ACS omega
container_volume 8
creator Arshad, Muhammad
Arshad, Shafia
Majeed, Muhammad K
Frueh, Johannes
Chang, Chun
Bilal, Ibtsam
Niaz, Shah Iram
Khan, Muhammad Shahzeb
Tariq, Muhammad Adeel
Yasir Mehboob, Muhammad
description Drug carriers have been designed and investigated remarkably due to their effective use in the modern medication process. In this study, the decoration of the Mg O nanocluster has been done with transition metals (Ni and Zn) for effective adsorption of metformin (anticancer drug). Decoration of Ni and Zn on a nanocluster allows two geometries, and similarly, the adsorption of metformin also provides two geometries. Density functional theory and time-dependent density functional theory have been employed at the B3LYP with 6-311G(d,p) level. The decoration of Ni and Zn offers good attachment and detachment of the drug, which is observed from their good adsorption energy values. Further, the reduction in the energy band gap is noted in the metformin-adsorbed nanocluster, which allows high charge transfer from a lower energy level to a high energy level. The drug carrier systems show an efficient working mechanism in a water solvent with the visible-light absorption range. Natural bonding orbital and dipole moment values suggested that the adsorption of the metformin causes charge separation in these systems. Moreover, low values of chemical softness with a high electrophilic index recommended that these systems are naturally stable with the least reactivity. Thus, we offer novel kinds of Ni- and Zn-decorated Mg O nanoclusters as efficient carriers for metformin and also recommend them to experimentalists for the future development of drug carriers.
doi_str_mv 10.1021/acsomega.3c00058
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title Transition Metal-Decorated Mg 12 O 12 Nanoclusters as Biosensors and Efficient Drug Carriers for the Metformin Anticancer Drug
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