Drug delivery of carvedilol (cardiovascular drug) using phosphorene as a drug carrier: a DFT study

Rafique, Javeria; Afzal, Qaba Qusain; Perveen, Mehvish; Iqbal, Javed; Akhter, Mohammed Salim; Nazir, Sidra; Al-Buriahi, M. S.; Alomairy, Sultan; Alrowaili, Z. A.

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dc.contributor.authors	Rafique, Javeria; Afzal, Qaba Qusain; Perveen, Mehvish; Iqbal, Javed; Akhter, Mohammed Salim; Nazir, Sidra; Al-Buriahi, M. S.; Alomairy, Sultan; Alrowaili, Z. A.
dc.date.accessioned	2023-01-24T12:08:52Z
dc.date.available	2023-01-24T12:08:52Z
dc.date.issued	2022
dc.identifier.issn	1658-3655
dc.identifier.uri	http://dx.doi.org/10.1080/16583655.2021.2021789
dc.identifier.uri	https://hdl.handle.net/20.500.12619/99676
dc.description	Bu yayın 06.11.1981 tarihli ve 17506 sayılı Resmî Gazete’de yayımlanan 2547 sayılı Yükseköğretim Kanunu’nun 4/c, 12/c, 42/c ve 42/d maddelerine dayalı 12/12/2019 tarih, 543 sayılı ve 05 numaralı Üniversite Senato Kararı ile hazırlanan Sakarya Üniversitesi Açık Bilim ve Açık Akademik Arşiv Yönergesi gereğince telif haklarına uygun olan nüsha açık akademik arşiv sistemine açık erişim olarak yüklenmiştir.
dc.description.abstract	2D nanomaterial phosphorene is a chemistically stable, biocompatible, and biodegradable drug delivery platform. This study investigates the drug loading efficiency of phosphorene for the cardiovascular drug carvedilol using density-functional theory (DFT). In the gas phase, carvedilol prefers to interact with phosphorene via P-H bonding with an adsorption energy of 0.59 eV (0.45 eV in water). The complex HOMO-LUMO energy gap has been calculated in gas and solvent media to assess phosphorene-carvedilol reactivity. As compared to free carvedilol and phosphorene, the phosphorene-carvedilol complex has increased solubility. The NCl analysis visualises non-covalent interactions within complexes. The low Van der Waals interactions between carvedilol and phosphorene allow for easy drug offloading. The phosphorene-carvedilol complex is more soluble in water than previously thought. Phosphorene's electron density changes significantly after complex formation, as revealed by charge decomposition plots and electron-localization function plots. PET (photo-induced electron transfer) analysis explains quenching. [GRAPHICS] .
dc.language	English
dc.language.iso	eng
dc.publisher	TAYLOR & FRANCIS LTD
dc.relation.isversionof	10.1080/16583655.2021.2021789
dc.subject	Science & Technology - Other Topics
dc.subject	Carvedilol
dc.subject	drug delivery
dc.subject	density functional theory
dc.subject	phosphorene
dc.subject	CVDs
dc.title	Drug delivery of carvedilol (cardiovascular drug) using phosphorene as a drug carrier: a DFT study
dc.type	Article
dc.contributor.authorID	Alrowaili, Ziyad Awadh/0000-0001-9767-7656
dc.contributor.authorID	iqbal, javed/0000-0003-0598-8401
dc.identifier.volume	16
dc.identifier.startpage	31
dc.identifier.endpage	46
dc.relation.journal	JOURNAL OF TAIBAH UNIVERSITY FOR SCIENCE
dc.identifier.issue	1
dc.identifier.doi	10.1080/16583655.2021.2021789
dc.contributor.author	Rafique, Javeria
dc.contributor.author	Afzal, Qaba Qusain
dc.contributor.author	Perveen, Mehvish
dc.contributor.author	Iqbal, Javed
dc.contributor.author	Akhter, Mohammed Salim
dc.contributor.author	Nazir, Sidra
dc.contributor.author	Al-Buriahi, M. S.
dc.contributor.author	Alomairy, Sultan
dc.contributor.author	Alrowaili, Z. A.
dc.relation.publicationcategory	Makale - Uluslararası Hakemli Dergi - Kurum Öğretim Elemanı
dc.rights.openaccessdesignations	gold