AI Article Synopsis

  • There is a strong demand for high-performance magnetoresistance (MR) sensors that operate at room temperature and with low energy consumption.
  • The study presents a monolayer graphene-on-black phosphorus (G/BP) heterostructure device, which achieves a remarkable MR of 775% at 9 T and 300 K, outperforming previous designs using monolayer graphene or few-layer BP.
  • The findings suggest that coupling between 2D materials and substrates can enhance MR effects, highlighting the potential for creating advanced sensors utilizing these properties.

Article Abstract

There is a huge demand for magnetoresistance (MR) sensors with high sensitivity, low energy consumption, and room temperature operation. It is well-known that spatial charge inhomogeneity due to impurities or defects introduces mobility fluctuations in monolayer graphene and gives rise to MR in the presence of an externally applied magnetic field. However, to realize a MR sensor based on this effect is hampered by the difficulty in controlling the spatial distribution of impurities and the weak magnetoresistance effect at the monolayer regime. Here, we fabricate a highly stable monolayer graphene-on-black phosphorus (G/BP) heterostructure device that exhibits a giant MR of 775% at 9 T magnetic field and 300 K, exceeding by far the MR effects from devices made from either monolayer graphene or few-layer BP alone. The positive MR of the G/BP device decreases when the temperature is lowered, indicating a phonon-mediated process in addition to scattering by charge impurities. Moreover, a nonlocal MR of >10 000% is achieved for the G/BP device at room temperature due to an enhanced flavor Hall effect induced by the BP channel. Our results show that electron-phonon coupling between 2D material and a suitable substrate can be exploited to create giant MR effects in Dirac semimetals.

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Source
http://dx.doi.org/10.1021/acs.nanolett.8b00155DOI Listing

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