通过单个Mn12分子磁体的电子传输。

Electron transport through single Mn12 molecular magnets.

作者信息

Heersche H B, de Groot Z, Folk J A, van der Zant H S J, Romeike C, Wegewijs M R, Zobbi L, Barreca D, Tondello E, Cornia A

机构信息

Kavli Institute of Nanoscience, Delft University of Technology, Lorentzweg 1, 2628 CJ Delft, The Netherlands.

出版信息

Phys Rev Lett. 2006 May 26;96(20):206801. doi: 10.1103/PhysRevLett.96.206801. Epub 2006 May 23.

DOI:10.1103/PhysRevLett.96.206801

PMID:16803192

Abstract

We report transport measurements through a single-molecule magnet, the Mn12 derivative [Mn12O12(O2C-C6H4-SAc)16(H2O)4], in a single-molecule transistor geometry. Thiol groups connect the molecule to gold electrodes that are fabricated by electromigration. Striking observations are regions of complete current suppression and excitations of negative differential conductance on the energy scale of the anisotropy barrier of the molecule. Transport calculations, taking into account the high-spin ground state and magnetic excitations of the molecule, reveal a blocking mechanism of the current involving nondegenerate spin multiplets.

摘要

我们报告了在单分子晶体管几何结构中，通过单分子磁体Mn12衍生物[Mn12O12(O2C-C6H4-SAc)16(H2O)4]进行的输运测量。硫醇基团将分子连接到通过电迁移制备的金电极上。引人注目的观察结果是在分子各向异性势垒的能量尺度上出现了完全电流抑制区域和负微分电导激发。考虑到分子的高自旋基态和磁激发的输运计算揭示了一种涉及非简并自旋多重态的电流阻断机制。

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通过单个Mn12分子磁体的电子传输。

Electron transport through single Mn12 molecular magnets.

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