Research Articles
The Molecular Detective: Catching Trace Metals with a Polymer Net
Discover how polymer-modified ultramicroelectrodes revolutionize trace metal detection in water and environmental monitoring through advanced electroanalysis techniques.
The Silent Guardian of Your Plate: How Electroanalysis Revolutionizes Food Safety
Discover how electroanalysis technology is transforming food safety through rapid, portable detection of contaminants, pesticides, and nutrients in our food supply.
Mind Readers: The Polymer Sensor That Decodes Our Brain's Chemical Language
Discover how poly(isonicotinic acid)-modified electrodes enable simultaneous detection of dopamine and epinephrine in the presence of ascorbic acid interference.
Organic Analytical Reagents in Electroanalysis: The Molecular Key to Modern Detection
Explore the role of organic analytical reagents in electroanalysis, their molecular recognition capabilities, recent innovations, and future applications in chemical sensing.
The Silent Sentinel: How Electroanalysis Decodes the Secrets of Biological Fluids
Explore how electroanalysis revolutionizes healthcare by converting chemical signals in biological fluids into real-time health data through advanced electrochemical sensors.
The Silent Watchdogs: How Electroanalysis Detects Pesticides at the Trace Level
Explore how electroanalysis revolutionizes pesticide detection in environmental and agricultural samples with advanced sensors and nanomaterials.
The Molecular Traffic Jam: How a Gold Electrode with a Smart Coat Can Tell Chemicals Apart
Discover how a gold electrode modified with cationic self-assembled monolayers can simultaneously detect ascorbic acid, DOPAC, homovanillic acid and uric acid with unprecedented clarity.
Electroanalysis: From Laboratory Benches to the Palm of Your Hand
Explore how electroanalysis is revolutionizing field monitoring with portable devices, open-source technology, and advanced materials for real-time chemical analysis.
The Diamond Revolution in Electroanalysis
Explore how boron-doped diamond electrodes are transforming chemical sensing with unprecedented durability, precision, and versatility in detecting diseases and pollutants.
Computerized Electroanalysis: The Digital Revolution in Chemical Sensing
Explore how computerized electroanalysis has transformed chemical sensing through digital technology, virtual instrumentation, and open-source potentiostats.