A multifunctional molecular spintronic platform with magnetoresistive and memristive responses via a self-assembled monolayer

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Title:	A multifunctional molecular spintronic platform with magnetoresistive and memristive responses via a self-assembled monolayer
Authors:	Hong, JY (Hong, Jhen-Yong) Chang, SH (Chang, Shih-Hang) Yang, KHO (Yang, Kui-Hon Ou) Yeh, PC (Yeh, Piin-Chen) Shiu, HW (Shiu, Hung-Wei) Chen, CH (Chen, Chia-Hao) Chiang, WC (Chiang, Wen-Chung) Lin, MT (Lin, Minn-Tsong)
Contributors:	物理系
Keywords:	TRANSPORT FILM
Date:	2019-04-14
Issue Date:	2019-06-25 11:24:59 (UTC+8)
Abstract:	We report the spin-dependent transport and the I-V hysteretic characteristics in molecular-level organic spin valves containing a self-assembled-monolayer (SAM) barrier of 1,4 benzenedimethanethiol (BDMT). X-ray photoelectron spectroscopy confirms the establishment of an ordered self-assembled monolayer of BDMT with the phosphonic groups coordinated onto the ferromagnet surface. The magnetoresistive (MR) and the I-V curves characterize the transport properties of the SAM-based organic spin valves, which exhibit both types of non-volatile memory switching, i.e., the magnetoresistive and the memristive switching. The results reveal the possibility of integrating organic SAM into the future multifunctional molecular-level spintronic device applications. Published under license by AIP Publishing.
Relation:	Journal of Applied Physics 125, 142905 (2019)
Appears in Collections:	[Department of Physics ] journal articles

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