Bowen Zhou scite author profile

We report a proof-of-concept study of extraordinary magnetoresistance (EMR) in devices of monolayer graphene encapsulated in hexagonal boron nitride, having metallic edge contacts and a central metal shunt. Extremely large EMR values, M R = (R(B) − R 0 )/R 0 ∼ 10 5 , are achieved in part because R 0 approaches or crosses zero as a function of the gate voltage, exceeding that achieved in high mobility bulk semiconductor devices. We highlight the sensitivity, dR/dB, which in two-terminal measurements is the highest yet reported for EMR devices, and in particular exceeds prior results in graphene-based devices by a factor of 20. An asymmetry in the zero-field transport is traced to the presence of pn-junctions at the graphene-metal shunt interface.

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Ruthenium-doped 3D Cu2O nanochains as efficient electrocatalyst towards hydrogen evolution and hydrazine oxidation

Shen

Zhou

Chen

et al. 2023

Applied Catalysis B: Environmental

102

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Bowen Zhou

Exsolved Fe–Ni nano-particles from Sr₂Fe_1.3Ni_0.2Mo_0.5O₆ perovskite oxide as a cathode for solid oxide steam electrolysis cells

Hierarchical MoS2–rGO nanosheets with high MoS2 loading with enhanced electro-catalytic performance

Extraordinary magnetoresistance in encapsulated monolayer graphene devices

Ruthenium-doped 3D Cu2O nanochains as efficient electrocatalyst towards hydrogen evolution and hydrazine oxidation

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Bowen Zhou

Exsolved Fe–Ni nano-particles from Sr2Fe1.3Ni0.2Mo0.5O6 perovskite oxide as a cathode for solid oxide steam electrolysis cells

Hierarchical MoS2–rGO nanosheets with high MoS2 loading with enhanced electro-catalytic performance

Extraordinary magnetoresistance in encapsulated monolayer graphene devices

Ruthenium-doped 3D Cu2O nanochains as efficient electrocatalyst towards hydrogen evolution and hydrazine oxidation

Contact Info

Product

Resources

About

Exsolved Fe–Ni nano-particles from Sr₂Fe_1.3Ni_0.2Mo_0.5O₆ perovskite oxide as a cathode for solid oxide steam electrolysis cells