Publication | Closed Access
Quantitative understanding of the ultra-sensitive and selective detection of dopamine using a graphene oxide/WS<sub>2</sub> quantum dot hybrid
16
Citations
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References
2020
Year
NanosensorsEngineeringMechanistic InsightNeurotransmitterChemistrySocial SciencesNeural MechanismCarbon-based MaterialPicomolar LevelSelective DetectionCognitive ScienceBehavioral NeuroscienceNanotechnologySensorimotor IntegrationNervous SystemDopamineDopamine ResearchNeurobiological MechanismGraphene Quantum DotNanomaterialsNeurophysiologyApplied PhysicsGrapheneNeuroscienceGraphene NanoribbonQuantitative Understanding
The sensing of dopamine at a picomolar level on a WS<sub>2</sub>/GO hybrid platform and its mechanistic insight.
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