Cu2+‐doped Carbon Nitride/MWCNT as an Electrochemical Glucose Sensor

The rational design of electrocatalysts with abundant active sites and high conductivity is the key to the development of glucose sensors. Herein, we report the preparation of a Cu2+‐doped C3N4 supported on multi‐walled carbon nanotube (MWCNT) network (Cu2+‐C3N4/MWCNT) as a highly efficient non‐enzymatic glucose sensing system. The morphologic and structural investigations using TEM, AFM, XRD, XPS, EPR, and i‐V response indicate the successful insertion of Cu2+ into the C3N4 inter‐layers via an out‐of‐plane on‐top configuration and the consequent exfoliation of C3N4 layers without forming CuO or Cu(OH)2. Such material can act as an electrocatalyst for glucose electrooxidation, and MWCNT can greatly reduce the charge transfer resistance and enhances activity. An optimised Cu2+ doping level (12 wt%) in Cu2+‐C3N4/MWCNT was established to realise high sensitivity towards glucose sensing (929 mA/M cm2), large linear range (0.5 μM∼12 mM), low detection limit (0.35 μM), and short response time (