NFeN结构和性质及反应势能曲线

用B3LYP/6-311+G(d)方法对化合物NFeN弯曲型和直线型的不同自旋多重度多个电子态的几何结构、电子结构、能量和振动光谱进行了计算研究.结果表明,单重态中Fe―N键长普遍比三重态和五重态中的短,在155pm左右;NFeN三重态电子结构最丰富,自然键轨道和Mulliken布居显示Fe―N键具有部分离子键特征;两种结构的所有稳定态中能量最低的是15A2态,能量相近的有13B1、13A2、13B2和11A1态,直线型中能量最低是3Δg态;相对于分子基态反应物Fe(a5D)+N2(X1Σg+)所有电子态的能量都偏高,该反应在热力学上是不利的,但是对于原子态反应物Fe(a5D)+2N(4S)则...

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Bibliographic Details
Published in物理化学学报 Vol. 27; no. 6; pp. 1346 - 1356
Main Author 蔡跃飘 王朝杰
Format Journal Article
LanguageChinese
Published 温州医学院药学院,浙江温州,325035 2011
Subjects
二氮化铁
密度泛函理论
氮分子
铁原子
氮分子
二氮化铁
铁原子
密度泛函理论
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ISSN1000-6818

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Summary:用B3LYP/6-311+G(d)方法对化合物NFeN弯曲型和直线型的不同自旋多重度多个电子态的几何结构、电子结构、能量和振动光谱进行了计算研究.结果表明,单重态中Fe―N键长普遍比三重态和五重态中的短,在155pm左右;NFeN三重态电子结构最丰富,自然键轨道和Mulliken布居显示Fe―N键具有部分离子键特征;两种结构的所有稳定态中能量最低的是15A2态,能量相近的有13B1、13A2、13B2和11A1态,直线型中能量最低是3Δg态;相对于分子基态反应物Fe(a5D)+N2(X1Σg+)所有电子态的能量都偏高,该反应在热力学上是不利的,但是对于原子态反应物Fe(a5D)+2N(4S)则是放热反应;计算振动频率和强度与实验较吻合的是13B1态;复合物FeN2与化合物NFeN结构差异明显;Fe原子直接插入N2分子的势能曲线表明该反应能垒很高,在动力学上也是不利的.
Bibliography:11-1892/06
Density functional theory; Iron atom; Nitrogen molecule; NFeN
CAI Yue-Piao WANG Chao-Jie (School of Pharmacy, Wenzhou Medical College, Wenzhou 325035, Zhejiang Province, P. R. China)
The geometrical structures, electronic structures, energetics and vibrational frequencies of bent and linear NFeN molecules with different spin multiplicities were studied at the B3LYP/6-311+G(d) level. We find that: (1) the Fe―N bond length is about 155 pm for singlet states and this is shorter than those in triplets and in quintets; (2) the electronic structures of triplet bent NFeN are more complicated than that of the others. Natural bonding orbital and Mulliken population data indicate that the Fe―N bond displays ionicity; (3) the most stable electronic state among all the states is 15A2 and the energies of 13B1, 13A2, 13B2, and 11A1 are similar, however, the most stable electronic state of linear NFeN is 3Δg. This reaction is endothermic because the energies of all the states are higher than those of the ground stat
ISSN:1000-6818