Abstract
The current research in graphene spintronics strives for achieving a long spin lifetime, and efficient spin injection and detection in graphene. In this article, we review how hexagonal boron nitride (hBN) has evolved as a crucial substrate, as an encapsulation layer, and as a tunnel barrier for manipulation and control of spin lifetimes and spin injection/detection polarizations in graphene spin valve devices. First, we give an overview of the challenges due to conventional SiO2/Si substrate for spin transport in graphene followed by the progress made in hBN based graphene heterostructures. Then we discuss in detail the shortcomings and developments in using conventional oxide tunnel barriers for spin injection into graphene followed by introducing the recent advancements in using the crystalline single/bi/tri-layer hBN tunnel barriers for an improved spin injection and detection which also can facilitate two-terminal spin valve and Hanle measurements at room temperature, and are of technological importance. A special case of bias induced spin polarization of contacts with exfoliated and chemical vapour deposition (CVD) grown hBN tunnel barriers is also discussed. Further, we give our perspectives on utilizing graphene-hBN heterostructures for future developments in graphene spintronics.
Highlights
Spin injection, transport, and detection are three fundamental processes in spintronics, and the control over these processes is crucial for designing new types of spintronic devices
In order to reach the ultimate goals of spintronics devices [10, 11], several recently emerged spintronics phenomena need to be understood and incorporated in future graphene spin transport studies
We describe a few prospects which can be utilized in graphene-hexagonal boron nitride (hBN) heterostructures to facilitate the progress of graphene spintronics in the near future
Summary
Original content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. Keywords: graphene, hexagonal boron nitride, spin transport, tunnel barrier, spin injection, spin detection, spin polarization
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