具有温度激活磁化的手性金属有机晶体中的长程自旋选择性传输
Long-Range Spin-Selective Transport in Chiral Metal-Organic Crystals with Temperature-Activated Magnetization.
作者信息
Mondal Amit Kumar, Brown Noam, Mishra Suryakant, Makam Pandeeswar, Wing Dahvyd, Gilead Sharon, Wiesenfeld Yarden, Leitus Gregory, Shimon Linda J W, Carmieli Raanan, Ehre David, Kamieniarz Grzegorz, Fransson Jonas, Hod Oded, Kronik Leeor, Gazit Ehud, Naaman Ron
机构信息
Department of Chemical and Biological Physics, Weizmann Institute of Science, Rehovot 76100, Israel.
School of Molecular Cell Biology and Biotechnology, George S. Wise Faculty of Life Sciences, Tel Aviv University, Tel Aviv 6997801, Israel.
出版信息
ACS Nano. 2020 Dec 22;14(12):16624-16633. doi: 10.1021/acsnano.0c07569. Epub 2020 Oct 23.
Room-temperature, long-range (300 nm), chirality-induced spin-selective electron conduction is found in chiral metal-organic Cu(II) phenylalanine crystals, using magnetic conductive-probe atomic force microscopy. These crystals are found to be also weakly ferromagnetic and ferroelectric. Notably, the observed ferromagnetism is thermally activated, so that the crystals are antiferromagnetic at low temperatures and become ferromagnetic above ∼50 K. Electron paramagnetic resonance measurements and density functional theory calculations suggest that these unusual magnetic properties result from indirect exchange interaction of the Cu(II) ions through the chiral lattice.
利用磁导电探针原子力显微镜,在手性金属有机铜(II)苯丙氨酸晶体中发现了室温下的长程(300纳米)、手性诱导自旋选择性电子传导。这些晶体还被发现具有弱铁磁性和铁电性。值得注意的是,观察到的铁磁性是热激活的,因此这些晶体在低温下是反铁磁性的,在约50K以上变为铁磁性。电子顺磁共振测量和密度泛函理论计算表明,这些不寻常的磁性源于铜(II)离子通过手性晶格的间接交换相互作用。
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