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

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] .