F. Azarakhshi

[ 1 ] - Electronic Structure Investigation of Octahedral Complex and Nano ring by NBO Analysis: An EPR Study

To calculation non-bonded interaction of the [CoCl6]3- complex embedded in nano ring, we focus on the single wall boron-nitride B18N18 nano ring. Thus, the geometry of B18N18 nano ring has been optimized by B3LYP method with EPR-II (Electron paramagnetic resonance) basis set and geometry of the [CoCl6]3- complex has been optimized at B3LYP method with Aldrich’s VTZ basis set and Stuttgart RSC 1...

[ 2 ] - DFT Study of Phenanthrene adsorption on a BN Nano-Ring

To investigate non-bonded interaction of Phenanthrene and BN nanostructure, geometric structure of Phenanthrene and B12N12 nano-ring with B3LYP method and 6-31g* basis set are optimized by using ab initio gaussian quantum chemical package. The main purpose of this study was to evaluate changes of electronic properties of aromatic compound in presences Nano ring field. Therefore reactivity and s...

[ 3 ] - Electronic properties studies of Benzene under Boron Nitride nano ring field

In this study, B12N12 Nano ring has been selected because it consist of four 6-side rings and polar bonds B-N which in comparison with non-polar bonds C-C, is more suitable for the study of the absorption of other compounds. So reactivity and stability of Benzene alone and in the presence B12N12 nano ring field checked. To determine the non-bonded interaction energies between Benzene and B12N12...

[ 4 ] - Theoretical comparison of thermodynamic parameters, NMR analysis, electronic properties of Boron Nitride and Aluminum Nitride nanotubes

In this research, geometrical structures of armchair single walled boron nitride nanotube (SWBNNT) and armchair single walled aluminum nitride nanotube (SWAlNNT) were optimized by Density Functional Theory (DFT) in the gas phase, both having the same length of 5 angstrom and n=9, m=9. B3LYP/6-31G* level of theory have been used to determine and compare electronic properties, n...

[ 5 ] - Electronic Structure Investigation of Octahedral Complex and Nano ring by NBO Analysis: An EPR Study

To calculation non-bonded interaction of the [CoCl6]3- complex embedded in nano ring, we focus on the single wall boron-nitride B18N18 nano ring. Thus, the geometry of B18N18 nano ring has been optimized by B3LYP method with EPR-II (Electron paramagnetic resonance) basis set and geometry of the [CoCl6]3- complex has been optimized at B3LYP method with Aldrich’s VTZ basis set and Stuttgart RSC 1...

[ 6 ] - Theoretical comparison of thermodynamic parameters, NMR analysis, electronic properties of Boron Nitride and Aluminum Nitride nanotubes

In this research, geometrical structures of armchair single walled boron nitride nanotube (SWBNNT) and armchair single walled aluminum nitride nanotube (SWAlNNT) were optimized by Density Functional Theory (DFT) in the gas phase, both having the same length of 5 angstrom and n=9, m=9. B3LYP/6-31G* level of theory have been used to determine and compare electronic properties, n...

[ 7 ] - Electronic properties studies of Benzene under Boron Nitride nano ring field

In this study, B12N12 Nano ring has been selected because it consist of four 6-side rings and polar bonds B-N which in comparison with non-polar bonds C-C, is more suitable for the study of the absorption of other compounds. So reactivity and stability of Benzene alone and in the presence B12N12 nano ring field checked. To determine the non-bonded interaction energies between Benzene and B12N12...

[ 8 ] - مطالعه نظری رفتار دینامیکی و الکترونی نانولوله‌های کربنی تک‌دیواره برای حذف ماده رنگزای 4-(فنیل دی آزنیل) آنیلین از محیط‌های آبی

در این تحقیق اثرات نامستقرشدن الکترونی بر روی خواص ساختاری، الکترونی و میزان واکنش‌پذیری ماده رنگزای 4-(فنیل دی آزنیل) آنیلین در حضور نانولوله‌های کربنی تک‌دیواره زیگزاگ (5.0) با استفاده از محاسبات مکانیک کوانتومی تئوری تابع چگالی الکترون، مورد مطالعه قرار گرفت. محاسبات توابع ترمودینامیکی و فرکانس‌های ارتعاشی در فاز گازی و حلال انجام شد. تعیین رفتار دینامیکی و الکترونی نانولوله‌های کربنی در واک...