Research Articles
The Unseen Symphony: Listening to the Beat of a Single Molecule
Explore the revolutionary field of Single-Entity Electroanalysis that enables scientists to study individual molecules and nanoparticles in electrochemical reactions.
Tiny Guardians in Your Food: How Nanotechnology and Electrochemistry Detect Hidden Additives
Discover how nanotechnology-enhanced electrochemical sensors detect TBHQ preservatives in food products with unprecedented sensitivity and accuracy.
The Mind's Messenger: How Nanotechnology is Revolutionizing Dopamine Detection
Exploring how RuO₂-modified carbon nanotube electrodes enable precise dopamine detection, revolutionizing neurological health monitoring.
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.
Catching the Unseeable: A Molecular Fishing Expedition for Trace DNA
Discover how scientists use gold and latex nanoparticles to detect ultra-rare DNA biomarkers for early disease detection with unprecedented sensitivity.
Decoding Doxorubicin's Secrets: How Nano-Engineered Cancer Drugs Interact with DNA and Cells
Research on nano-engineered doxorubicin's interaction with DNA and breast cancer cells using electrochemical biosensors
The Hidden Conductor: How a Century-Old Dye Perfects Modern Electronics
Exploring how Janus Green B, a century-old dye, enables precision copper plating for modern electronics through electrochemistry and nanotechnology.
Unlocking the Secrets of Tiny Droplets: Electroanalysis in a Molecular Maze
Exploring how Semidifferential Electroanalysis reveals chemical reactions within Triton X-100/Toluene/H₂O microemulsions for environmental and pharmaceutical applications.
The Molecular Detectives: How Nano-Carbon and Palladium Are Revolutionizing Dopamine Detection
Exploring how rGO-Pd nanocomposites enable unprecedented precision in dopamine detection for neurological applications.
The Carbon Revolution: How Graphene Foams Are Powering Our Future
Discover how 3D graphene nano-ribbon foams synthesized at 1700°C are revolutionizing electrodes for biosensing and energy storage