Applying Large-Area Molecular Technology to Improve Magnetoresistive Performance of Hybrid Molecular Spin Valves

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Title:	Applying Large-Area Molecular Technology to Improve Magnetoresistive Performance of Hybrid Molecular Spin Valves
Authors:	Tai, JC (Tai, Jung-Chi) Huang, JC (Huang, Jang-Chang) Chang, YM (Chang, Yin-Ming) Li, KS (Li, Kai-Shin) Chiang, WC (Chiang, Wen-Chung) Lin, MT (Lin, Minn-Tsong)
Contributors:	Dept Phys
Keywords:	TRANSPORT JUNCTIONS ELECTRODES DEVICES FILMS
Date:	2012-06
Issue Date:	2013-02-20 15:23:45 (UTC+8)
Abstract:	Applying molecular-level technique to the construction of molecular spin valves is a challenging issue in organic spintronics, in which the magnetoresistive performance is highly sensitive to the device's local contact geometry. Here, we propose a molecular spin-valve design of large-area molecular junction to reduce the geometrical impact. Room-temperature tunneling magnetoresistance and well-defined parallel/antiparallel states are achieved in the spin valve with a molecular spacer. The results hold promise for the development of future molecular-level nonvolatile electronic devices. (C) 2012 The Japan Society of Applied Physics
Relation:	APPLIED PHYSICS EXPRESS 卷: 5 期: 6 文獻號碼: 063006
Appears in Collections:	[Department of Physics ] journal articles

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