对吡啶的邻、间、对位的双自由基体系的理论研究  

Theoretical study of biradical organic molecules with o,m,p-pyridine

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作  者:储德清[1] 王立敏[1] 李聪[1] 张景萍[2] 王荣顺[2] 

机构地区:[1]天津工业大学材料科学与化学工程学院 [2]东北师范大学化学学院,长春130024

出  处:《天津工业大学学报》2006年第3期43-46,共4页Journal of Tiangong University

基  金:天津工业大学校内基金资助项目(029307)和(029302)天津大学博士后基金资助项目(413220)

摘  要:针对以吡啶为耦合单元,以·CH2、·NH2+、HNO·和·NH 4种自由基为自旋单元的5种体系,采用密度泛函方法进行计算,得到了双自由基之间磁性耦合的拓扑规则,即共轭体系中,两个自由基之间以偶数个碳(或氮)原子耦合,体系具有低自旋基态,表现为反铁磁耦合;两个自由基之间以奇数个碳(或氮)原子耦合,体系具有高自旋基态,表现为铁磁耦合.计算也说明,间位取代吡啶可以充当很好的铁磁耦合单元, 而邻位和对位取代吡啶不可以充当铁磁耦合单元.在2,6取代吡啶中以HNO·作自旋中心分子的高自旋基态有最稳定性,在3,5取代吡啶中以·NH作自旋中心分子的高自旋基态有最稳定性.Novel stable high spin molecules are designed with ·CH2, HNO· ,· NH2 · ,· NH as a spin-containing(SC) fragment, and pyridine as a coupling(FC) unit. They have been studied by using DFT methods. It is proved that there are topological rules in magnetic coupling between radicals of conjugated systems: radical sites through the even number of carbons are conjugated, low spin state is stable ground state, the molecules corre- spond to antiferromagnetic coupling; while those through odd carbon atoms are conjugated, high spin state is stable ground state, the molecules correspond to ferromagnetic coupling. It shows m-pyridine can become ferro- magnetic coupling unit, and o,p-pyridine can not become ferromagnetic coupling. In 2,6-pyridine, the stability of high-spin ground states with NHO ~ as SC is highest, and that with· NH2^ + as SC is lowest. In 3,5-pyri- dine, the stability of high-spin ground states with · NH as SC is highest, and that with· NH2 ^+ as SC is lowest.

关 键 词:吡啶 自由基 UB3LYP 铁磁耦合 

分 类 号:O641.12[理学—物理化学]

 

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