In-situ functionalization of carbon nanomaterials with coffee-extract derived chlorogenic acid: Electrocatalytic dopamine oxidation and molecular insight into coffee–dopamine crosstalk | Synapse
March 3, 2026
In-situ functionalization of carbon nanomaterials with coffee-extract derived chlorogenic acid: Electrocatalytic dopamine oxidation and molecular insight into coffee–dopamine crosstalk
Key Points
Electrocatalytic dopamine oxidation is facilitated through functionalized carbon nanomaterials, enhancing interaction with chlorogenic acid.
Chlorogenic acid derived from coffee extract effectively activates dopamine oxidation, involving a crosstalk mechanism between coffee and dopamine pathways.
Analysis of carbon nanomaterials with chlorogenic acid provides insights into molecular interactions, supporting broader neurological applications.
The findings suggest potential therapeutic implications in neurochemistry, highlighting the role of diet-derived compounds in neurotransmitter regulation.