Research Articles
Unlocking Nanochannels: The Secret Life of Prussian Blue-Filled Carbon Nanotubes
Exploring how Prussian Blue infiltrates carbon nanotubes to create revolutionary nanocomposites for biosensing, environmental cleanup, and flexible electronics.
Decoding Life's Signals: The Art and Science of Biomolecular Electroanalysis
Exploring the cutting-edge techniques in biomolecular electroanalysis and sensor design for health diagnostics.
Beyond Batteries: How Nitrogen-Infused Carbon is Revolutionizing Energy and Computing
Discover how nitrogen-doped carbon materials are transforming energy storage and computing through advanced electrochemical and optoelectronic properties.
The Molecular Detectives: How Calixarene-Modified Electrodes are Revolutionizing Heavy Metal Detection
Exploring how calixarene-modified carbon paste electrodes enable affordable, portable detection of toxic heavy metals in water supplies.
Catching the Invisible: How Vanishing Droplets Revolutionize Ultra-Sensitive Detection
Discover how dissolving microdroplets enable revolutionary sub-nanomolar detection through concentration enrichment and electroanalysis.
The Silent Chemistry of Disinfection: How Electrons Unlock PAA and Hydrogen Peroxide's Secrets
Discover how square-wave voltammetry enables simultaneous detection of peracetic acid and hydrogen peroxide for safer disinfection in food processing and wastewater treatment.
The Silent Healers: How Phytochemicals and Microchips Are Revolutionizing Wound Recovery
Exploring how phytochemicals and microfluidic technology are transforming wound healing through impedance spectroscopy monitoring.
The Crab Shell Sensor: How Seafood Waste is Revolutionizing Chemical Detection
Discover how modified carbon-paste electrodes infused with natural ionic polysaccharides from seafood waste are creating greener, more sensitive chemical sensors.
The Nano-Detectives: How Tiny Sensors Spot Life-Saving Molecules in a Chemical Crowd
Discover how nanostructured electrodes revolutionize epinephrine detection amidst chemical interference like acetaminophen, enabling breakthroughs in emergency medicine and neurology.
The Molecular Sleuths: How Imprinted Polymers Sniff Out Antibiotics in Our Water and Food
Discover how molecularly imprinted polymers (MIPs) combined with potentiometric sensors revolutionize detection of antibiotics like amoxicillin in environmental and food samples.