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eKonferencije.com: EXPLORING THE ADSORPTION POTENTIAL OF CARBON NANOTUBES AS EFFICIENT ADSORBERS FOR DRUG MOLECULES

EXPLORING THE ADSORPTION POTENTIAL OF CARBON NANOTUBES AS EFFICIENT ADSORBERS FOR DRUG MOLECULES

1. Svetlana Pelemiš, Tehnološki fakultet u Istočnom Sarajevu, Republic of Srpska, Bosnia and Herzegovina
2. Andrijana Bilić, 1Univerzitet u Novom Sadu, Prirodno-matematički fakultet, Departman za hemiju, biohemiju i zaštitu ž, Serbia
3. Sanja Armaković, Univerzitet u Novom Sadu, Prirodno-matematički fakultet, Departman za fiziku, Serbia
4. Maria Savanović, Univerzitet u Novom Sadu, Prirodno-matematički fakultet, Departman za fiziku, Serbia
5. Stevan Armaković, Serbia

This research observed the interaction between carbon nanotubes (CTs) and ephedrine (EH) molecules through a comprehensive utilization of density functional theory (DFT) and density functional tight-binding (DFTB) calculations applied to both periodic and isolated structures. EH, as a prevalent pharmaceutical pollutant, interacts with CTs and prominent organic nanostructures, prompting a meticulous examination of CTs' potential as EH adsorbents. Multiple models of CTs were systematically scrutinized to elucidate their interaction with EH in detail. Given the substantial complexity of systems involving 122-187 atoms, the DFTB methodology was used for geometric optimizations. DFT computations were subsequently employed to procure accurate total energies, enabling the precise evaluation of binding energies between EH and nanotubes. The outcomes underscore the propensity of CTs to adsorb EH molecules with notable binding energies, striking a balance between robust adhesion and facilitation of desorption under plausible experimental conditions. These findings not only shed light on the fundamental mechanisms governing the CT-EH interaction but also offer promising insights for the practical application of CTs in environmental remediation strategies targeting pharmaceutical pollutants.

Ključne reči :

Tematska oblast: SIMPOZIJUM A - Nauka materije, kondenzovane materije i fizika čvrstog stanja

Datum: 14.06.2024.

Contemporary Materials 2024 - Savremeni Materijali

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