One-pot self-assembled two-dimensional Ni/Ni3C/C3N4 nanosheets with highly efficient glucose oxidation for fuel cell and sensing applications

“…Recently, non-enzymatic sensing approaches have been gaining traction as promising alternatives, presenting potential advantages including higher stability, selectivity, and wider detection ranges. [5][6][7][8][9] Among these, the modification of electrode surfaces with transition metal carbides, such as nickel carbide (Ni 3 C), has shown promising results for catalytic glucose oxidation, facilitating direct electrochemical glucose sensing. 10 Electrochemical sensors stand at the forefront of analytical technology, offering rapid, sensitive, and selective detection of a wide range of analytes.…”

A Novel Synthesis of Nickel Carbide Modified Glassy Carbon Electrode for Electrochemical Investigation of Archetypal Diabetes Biomarker in Human Serum and Urine Samples

“…Recently, non-enzymatic sensing approaches have been gaining traction as promising alternatives, presenting potential advantages including higher stability, selectivity, and wider detection ranges. [5][6][7][8][9] Among these, the modification of electrode surfaces with transition metal carbides, such as nickel carbide (Ni 3 C), has shown promising results for catalytic glucose oxidation, facilitating direct electrochemical glucose sensing. 10 Electrochemical sensors stand at the forefront of analytical technology, offering rapid, sensitive, and selective detection of a wide range of analytes.…”

A Novel Synthesis of Nickel Carbide Modified Glassy Carbon Electrode for Electrochemical Investigation of Archetypal Diabetes Biomarker in Human Serum and Urine Samples