Author:
Parlak Cemal,Alver Özgür,Ramasami Ponnadurai
Abstract
AbstractPiperazines and fullerene nanocages are versatile compounds. These are discussed in a wide range of academic work, especially in the field of medicine, and considered for various applications by the pharmaceutical industry. In the present research, the potential interaction mechanisms between B-, Si-doped C60 and 1-formylpiperazine (1-fp) were examined within the framework of density functional theory, along with their optimized molecular structures and electronic properties. The calculated binding energies and various other physical and chemical parameters of 1-fp found in this work in comparison with the Si- and B-doped fullerenes suggest that doping of fullerene nanocage leads to a strong interaction mechanism that alters the chemical and electronic properties of the investigated compounds. This finding can be used as a guide for their further applications.
Subject
Materials Chemistry,Metals and Alloys,Condensed Matter Physics,General Chemistry
Reference76 articles.
1. A DFT, AIM and NBO study of adsorption and chemical sensing of iodine by S-doped fullerenes;Sensor Actuat. B-Chem.,2014
2. cclib: A library for package-independent computational chemistry algorithms;J. Comp. Chem.,2008
3. New insights into the conformal stability, influence of hydrogen bonding and vibrational analysis of 2,6- and 3,5-Dihydroxyacetophenone – A comparative study;Spectrochim. Acta A,2014
4. Piperazine bridged resorcinarene cages;Org. Lett.,2010
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