Research Articles
The Molecular Messenger: How a Simple Plant Chemical Supercharges Electroanalysis
Discover how phenol-based redox mediators act as molecular translators in electroanalysis, enabling sensitive detection of silent molecules like arsenic in water.
The Molecular Tango: Catching Two Troublemakers with a Single Sensor
Discover how stochastic electroanalysis enables simultaneous detection of fusidic acid and betamethasone in pharmaceuticals and water samples.
Electroanalytical Methods for Pharmaceutical Analysis: Revolutionizing Drug Development
Explore how electroanalytical methods are transforming pharmaceutical analysis with enhanced sensitivity, cost-effectiveness, and innovative applications in drug development.
The Secret Life of Your Blue Jeans: Catching a Dye in the Act
Discover how scientists use electrochemical sensors to detect Disperse Red 11 dye in water with incredible precision and sensitivity.
Electroanalysis of Infection with Methyl Pyruvate: A New Frontier in Medical Diagnostics
Discover how methyl pyruvate electroanalysis is revolutionizing infection detection with faster, more sensitive diagnostic methods for point-of-care testing.
The Hidden Language of Plants: How Electrochemical Analysis Decodes Thiol Conversations
Discover how electrochemical analysis reveals plant stress responses through thiol compounds, with insights from cadmium exposure experiments in maize plants.
Where Two Worlds Meet: The Hidden Power of Liquid-Liquid Interfaces
Exploring electroanalysis with membrane electrodes and liquid-liquid interfaces - a field where chemistry and electricity converge at the frontier of two immiscible liquids.
Catching a Toxic Ghost: The Nano-Enhanced Sensor Hunting Our Water's Hidden Pollutant
Discover how electropolymerized aniline-based stainless steel fiber coatings modified by multi-walled carbon nanotubes are revolutionizing the detection of 4-Chlorophenol in water supplies.
The Electric Eye: How a Tiny Sensor Decodes Drug Metabolism in Our Bodies
Discover how electrochemical methods are revolutionizing the study of drug metabolism, focusing on 4′-Hydroxydiclofenac and CYP2C9 enzyme activity.
The Invisible Detectives: How Engineered Nanomaterials are Revolutionizing Chemical Sensing
Explore how engineered nanomaterials and nanohybrids are transforming electroanalysis for advanced chemical sensing applications in medicine, environment, and food safety.