Research Articles
The Silent Threat in Our Water and the Glassy Carbon Guardian
Discover how electrochemically activated glassy carbon electrodes are revolutionizing lead detection in water with unprecedented sensitivity and portability.
Sensing the Unseeable: How a Tiny Sensor Detects a Mighty Antioxidant
Discover how a glass carbon electrode modified with cyclodextrin and carbon nanotubes revolutionizes N-acetyl-L-cysteine detection with exceptional sensitivity.
The Molecular Detective: A Tiny Sensor with a Big Mission to Track Antibiotics in Our Water
Discover how nanostructured electrochemical sensors using Zinc Oxide and anionic surfactants detect antibiotic pollutants in water with unprecedented sensitivity.
Unlocking Electrochemical Secrets: Validation and Optimization of In-situ Copper-Modified Glassy Carbon Electrode
Explore the validation and optimization process of in-situ copper-modified glassy carbon electrodes for enhanced electrochemical sensing applications.
Catching a Poison: How Copper and Graphene are Revolutionizing Pesticide Detection
Explore how copper-graphene oxide nanocomposites enable rapid, sensitive detection of methyl parathion pesticide contaminants in water samples through advanced electrochemical sensing.
Platinum Electrode Modified with Polyterthiophene Doped with Metallic Nanoparticles for Ascorbic Acid Detection
Advanced electrochemical sensor using platinum electrodes modified with polyterthiophene and metallic nanoparticles for precise ascorbic acid detection.
The Molecular Bouncer: A Tiny Sensor for Painkiller Detection
Discover how a novel electrochemical sensor using samarium vanadate and carbon nanotubes revolutionizes paracetamol detection with incredible precision.
The Silent Threat in Our Waters: How a Cysteine Film Became an Environmental Guardian
Discover how poly(cysteine) electrochemical sensors detect hazardous hydrazine and hydroxylamine in water with unprecedented accuracy and affordability.