Size dependent magnetoresistance in graphene nanocrystallines film
ID:310 View Protection:ATTENDEE Updated Time:2020-10-26 12:07:44 Hits:923 Poster Presentation

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Abstract
Magnetoresistive effect has drawn a great deal attention in spintronics and microelectronic applications.[1] Combining the advantages of low weight, low spin-orbit coupling and high thermal conductivity, graphene opens a suitable window for applications in magnetoresistance (MR) devices.[2] It was reported that MR effect of graphene was derived from the edge states, which was regarded as main sources of the intervalley scattering, thus causing restoration of the weak localization (WL) localized.[3] Moreover, previous studies indicated that introducing more edge states of graphene can improve the MR effect.[4] Interest in nanoscale materials with large MR has been renewed due to the synergistic effect of quantum confinement and rich heterogeneous interfaces, the transport properties of electrons and magnetic properties will be significantly modulated.[5] In particular, nanosized graphene was expected to be desirable candidates for achieving large MR. Herein, we constructed a vertically standing graphene nanocrystallines (GNs) embedded amorphous carbon film structure (VGC-film), and size dependent MR effect was observed from film with varied sized GNs ranging from 3.7 nm to 10.5 nm. Maximum MR value of ~8% was achieved at 2 K from VGC-film with 3.7 nm GNs, the MR value decreased with increasing size of GNs from 3.7 to 10.5 nm, this can be attributed to enhancement of wave function shrinkage effect. This work provides promising opportunities for constructing highly efficient MR devices using graphene nanocrystallines materials, like magnetic sensors, magnetic random-access memories and magnetic logic devices.
Keywords
graphene,magnetoresistance,PVD thin film sensor
Speaker
代兴泽
研究生 深圳大学

Submission Author
王超 深圳大学
代兴泽 深圳大学
陈晓寒 深圳大学
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Important Date
  • Conference Date

    Nov 13

    2020

    to

    Nov 16

    2020

  • Oct 31 2020

    Early Bird Registration

  • Nov 05 2020

    Draft paper submission deadline

  • Nov 16 2020

    Registration deadline

Sponsored By
中国机械工程学会表面工程分会
Organized By
广东省新材料研究所
北京大学深圳研究生院
现代材料表面工程技术国家工程实验室
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