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Ionic‐Liquid Gating: Quantitative Determination on Ionic‐Liquid‐Gating Control of Interfacial Magnetism (Adv. Mater. 17/2017)
Author(s) -
Zhao Shishun,
Zhou Ziyao,
Peng Bin,
Zhu Mingmin,
Feng Mengmeng,
Yang Qu,
Yan Yuan,
Ren Wei,
Ye ZuoGuang,
Liu Yaohua,
Liu Ming
Publication year - 2017
Publication title -
advanced materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 10.707
H-Index - 527
eISSN - 1521-4095
pISSN - 0935-9648
DOI - 10.1002/adma.201770117
Subject(s) - ionic liquid , gating , materials science , ionic bonding , magnetism , ferromagnetic resonance , anisotropy , electron paramagnetic resonance , nuclear magnetic resonance , ferromagnetism , electric field , analytical chemistry (journal) , condensed matter physics , magnetic field , ion , optics , chemistry , magnetization , physiology , biochemistry , physics , organic chemistry , quantum mechanics , chromatography , biology , catalysis
Ionic‐liquid‐gating control of interfacial magnetic anisotropy in Au/[DEME]+[TFSI]‐/Co/SiO 2 multilayer structures is quantitatively determined by the electron spin resonance method, as described in article number 1606478 by Ziyao Zhou, Ming Liu and co‐workers. A reproducible, reversible ferromagnetic resonance field shift of 219 Oe at an applied voltage of 1.5 V, with a large ME tunability of 146 Oe V −1 , is achieved, assisted by the electric double layers at the room temperature.