In the present work, the interaction between drug Granisetron(GRS) and BN(7,7-7) nanotube by density functional theory(DFT) calculations in the solvent water has been investigated. The non-bonded interaction effects o...In the present work, the interaction between drug Granisetron(GRS) and BN(7,7-7) nanotube by density functional theory(DFT) calculations in the solvent water has been investigated. The non-bonded interaction effects of the molecule GRS with BN(7,7-7) nanotube on chemical shift tensors, natural charge and electronic properties such as the energy gap between HOMO and LUMO, global hardness, electronegativity and electronic chemical potential have been also detected. The natural bond orbital(NBO) analysis suggested that charge transfer depended between GRS and nanotube and induces a dipole moment in the complex. Then, the possibility of the use of BN(7,7-7) nanotube for GRS delivery to the diseased cells has been established.展开更多
采用密度泛函理论(DFT)中的B3LYP方法,在LANL2DZ基组水平上优化W m B n(m+n≤7)团簇的几何结构,得到它们的基态构型,并对基态构型的平均结合能、二阶能量差分、能隙及WIB键级进行计算.结果表明:WB n团簇的基态构型均是平面结构;当m≥2且...采用密度泛函理论(DFT)中的B3LYP方法,在LANL2DZ基组水平上优化W m B n(m+n≤7)团簇的几何结构,得到它们的基态构型,并对基态构型的平均结合能、二阶能量差分、能隙及WIB键级进行计算.结果表明:WB n团簇的基态构型均是平面结构;当m≥2且m+n≥4时,除W3B团簇外,其余团簇的基态结构均为立体结构;团簇的热力学稳定性随W原子个数的增加越来越好,W-W键的强度明显高于W-B和B-B键,W原子对团簇的稳定性起主导作用;W2B2和W3B团簇最稳定.展开更多
基金supported by the Islamic Azad University of Genaveh
文摘In the present work, the interaction between drug Granisetron(GRS) and BN(7,7-7) nanotube by density functional theory(DFT) calculations in the solvent water has been investigated. The non-bonded interaction effects of the molecule GRS with BN(7,7-7) nanotube on chemical shift tensors, natural charge and electronic properties such as the energy gap between HOMO and LUMO, global hardness, electronegativity and electronic chemical potential have been also detected. The natural bond orbital(NBO) analysis suggested that charge transfer depended between GRS and nanotube and induces a dipole moment in the complex. Then, the possibility of the use of BN(7,7-7) nanotube for GRS delivery to the diseased cells has been established.
文摘采用密度泛函理论(DFT)中的B3LYP方法,在LANL2DZ基组水平上优化W m B n(m+n≤7)团簇的几何结构,得到它们的基态构型,并对基态构型的平均结合能、二阶能量差分、能隙及WIB键级进行计算.结果表明:WB n团簇的基态构型均是平面结构;当m≥2且m+n≥4时,除W3B团簇外,其余团簇的基态结构均为立体结构;团簇的热力学稳定性随W原子个数的增加越来越好,W-W键的强度明显高于W-B和B-B键,W原子对团簇的稳定性起主导作用;W2B2和W3B团簇最稳定.
