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Interfacial Control via Reversible Ionic Motion in Battery‐Like Magnetic Tunnel Junctions (Adv. Electron. Mater. 9/2021)
Author(s) -
Long Guofei,
Xue Qian,
Li Qiang,
Shi Yu,
Li Lin,
Cheng Long,
Li Peng,
Zhang Junwei,
Zhang Xixiang,
Guo Haizhong,
Fu Jing,
Li Shandong,
Moodera Jagadeesh S.,
Miao GuoXing
Publication year - 2021
Publication title -
advanced electronic materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.25
H-Index - 56
ISSN - 2199-160X
DOI - 10.1002/aelm.202170041
Subject(s) - materials science , spintronics , electrolyte , electronics , lithium (medication) , nanotechnology , cathode , ion , optoelectronics , dielectric , magnetoresistance , electron , motion control , ionic bonding , condensed matter physics , electrical engineering , electrode , magnetic field , computer science , physics , medicine , engineering , quantum mechanics , ferromagnetism , endocrinology , artificial intelligence , robot
Controllable Lithium Ion Motion An electronic device inspired by solid‐state batteries, comprised of a transition‐metal oxide layer and a lithium‐containing dielectric as the cathode and electrolyte is presented by Qiang Li, Shandong Li, Guo‐Xing Miao, and colleagues in article number 2100512. Controllable lithium ion motion modifies the interfaces and induces resistive switching, while the magnetic configuration generates tunnel magnetoresistance. The combination of ion motion and spin transport integrates iontronics with spintronics and facilitates new capabilities in modern nano‐electronics' control toolbox.