摘要
Organic spintronics refers to control spin dependent transport through organic materials.In the last two decades,extraordinary development has been achieved for organic-spintronics.A series of theoretical and experimental studies have been done to reveal the mechanisms of spin dependent transport properties.The theoretical analysis is based on the non-equilibrium Green's function formalism provides a mathematical framework for solving the transmission coefficients in the Landauer formula from atomistic first principles without any phenomenological parameters.In this article,we provide a brief theoretical review on organic spintronics devices and device physics therein.
Organic spintronics refers to control spin dependent transport through organic materials. In the last two decades, extraordinary development has been achieved for organic-spintronics. A series of theoretical and experimental studies have been done to re- veal the mechanisms of spin dependent transport properties. The theoretical analysis is based on the non-equilibrium Green's function formalism provides a mathematical framework for solving the transmission coefficients in the Landauer formula from atomistic first principles without any phenomenological parameters. In this article, we provide a brief theoretical review on organic spintronics devices and device physics therein.
基金
supported by the State Key Project of Fundamental Research of the Ministry of Science and Technology(Grant No. 2010CB934400)
the National Natural Science Foundation of China (Grant Nos.11104338,10934099,and 51021061)
the International Collaborative Research Programs between NSFC and EPSRC of the United Kingdom(Grant No.10911130234)
between NSFC and ANR of France(Grant No.F040803)