纳微快报(英文)2020,Vol.12Issue(5):177-190,14.
Hybrid Reduced Graphene Oxide with Special Magnetoresistance for Wireless Magnetic Field Sensor
摘要
Abstract
Very few materials show large magnetoresistance (MR) under a low magnetic field at room temperature, which causes the bar?rier to the development of magnetic field sensors for detecting low-level electromagnetic radiation in real-time. Here, a hybrid reduced gra?phene oxide (rGO)-based magnetic field sensor is produced by in situ deposition of FeCo nanoparticles (NPs) on reduced graphene oxide (rGO). Special quantum magnetoresistance (MR) of the hybrid rGO is observed, which unveils that Abrikosov’s quantum model for layered materials can occur in hybrid rGO; meanwhile, the MR value can be tunable by adjusting the particle density of FeCo NPs on rGO nanosheets. Very high MR value up to 21.02?±?5.74% at 10 kOe at room temperature is achieved, and the average increasing rate of resistance per kOe is up to 0.9282 Ω kOe?1. In this paper, we demonstrate that the hybrid rGO-based magnetic field sensor can be embedded in a wireless system for real-time detection of low-level electromagnetic radiation caused by a working mobile phone. We believe that the two-dimensional nano?materials with controllable MR can be integrated with a wireless system for the future connected society.关键词
Large magnetoresistance/Magnetic nanocrystals/Reduced graphene oxide/Wireless magnetic field sensorKey words
Large magnetoresistance/Magnetic nanocrystals/Reduced graphene oxide/Wireless magnetic field sensor引用本文复制引用
Songlin Yang,Mingyan Tan,Tianqi Yu,Xu Li,Xianbin Wang,Jin Zhang..Hybrid Reduced Graphene Oxide with Special Magnetoresistance for Wireless Magnetic Field Sensor[J].纳微快报(英文),2020,12(5):177-190,14.基金项目
We are thankful for the financial support from Canada Innovation Fund-Leaders Opportunity Fund, and the Natural Sciences and Engineering Research Council of Canada (NSERC). (NSERC)
