AI Article Synopsis
- Researchers developed highly sensitive Hall sensors using monolayer single-crystal graphene, achieving a carrier mobility over 12000 cm V s and low residual carrier density.
- The sensors demonstrated a Hall sensitivity greater than 5000 V A T, a level typically reached only with more complex methods involving encapsulated graphene.
- They also introduced a simple polymeric encapsulation technique, which stabilizes the sensor performance in ambient conditions and reduces degradation over extended periods, enhancing the potential for graphene-based Hall sensors in practical applications.
Article Abstract
In this work, we demonstrate highly sensitive and scalable Hall sensors fabricated by adopting arrays of monolayer single-crystal chemical vapor deposition (CVD) graphene. The devices are based on graphene Hall bars with a carrier mobility of >12000 cm V s and a low residual carrier density of ∼1 × 10 cm, showing Hall sensitivity higher than 5000 V A T, which is a value previously only achieved when using exfoliated graphene encapsulated with flakes of hexagonal boron nitride. We also implement a facile and scalable polymeric encapsulation, allowing the performance of graphene Hall bars to be stabilized when measured in an ambient environment. We demonstrate that this capping method can reduce the degradation of electrical transport properties when the graphene devices are kept in air over 10 weeks. State-of-the-art performance of the realized devices, based on scalable synthesis and encapsulation, contributes to the proliferation of graphene-based Hall sensors.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11348313 | PMC |
| http://dx.doi.org/10.1021/acsanm.3c03920 | DOI Listing |
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