西华大学学报(自然科学版)
西華大學學報(自然科學版)
서화대학학보(자연과학판)
JOURNAL OF XIHUA UNIVERSITY(NATURAL SCIENCE EDITION)
2012年
1期
75-79
,共5页
Fe@Au8团簇%几何结构%电子性能
Fe@Au8糰簇%幾何結構%電子性能
Fe@Au8단족%궤하결구%전자성능
Fe@Aus cluster%geometrical structure%electronic property
利用密度泛函PW91方法研究了Fe@Au8团簇的平衡结构和电子性能,获得了多个异构体及电子态.结果显示Fe原子在低能异构体中趋于占据最高配位位置,相似异构体的能量随着Fe原子配位数减少而增加.电子性能分析表明基态结构具有较高的稳定性,类似最稳定Au9团簇的I2异构体有相对大的HOMO-LUMO能级间隙.
利用密度汎函PW91方法研究瞭Fe@Au8糰簇的平衡結構和電子性能,穫得瞭多箇異構體及電子態.結果顯示Fe原子在低能異構體中趨于佔據最高配位位置,相似異構體的能量隨著Fe原子配位數減少而增加.電子性能分析錶明基態結構具有較高的穩定性,類似最穩定Au9糰簇的I2異構體有相對大的HOMO-LUMO能級間隙.
이용밀도범함PW91방법연구료Fe@Au8단족적평형결구화전자성능,획득료다개이구체급전자태.결과현시Fe원자재저능이구체중추우점거최고배위위치,상사이구체적능량수착Fe원자배위수감소이증가.전자성능분석표명기태결구구유교고적은정성,유사최은정Au9단족적I2이구체유상대대적HOMO-LUMO능급간극.
The equilibrium structures and electronic properties of Fe@Au8 cluster are investigated using density functional theory at level PW91.Many low-lying isomers are obtained along with their electronic states.It is found that Fe atom in the low-lying isomers tends to occupy the most highly coordinated position.The energy of similar isomers increases as the coordinated number of Fe decreases.The analysis of electronic properties show that the ground state structure possesses relatively higher stability.The isomer I2,which resembles the most stable structure of cluster Au9,has a big energy gap between_the highest occupied molegular orbit(HOMO)and lowest unoccupied molecular orbit(LUMO).
