Research Articles
The Chemical Bouncer: Picking Dopamine Out of a Crowd
Discover how scientists created a microscopic bouncer that selectively detects dopamine amidst interfering molecules using p-nitroaniline film technology.
The Nano-Detective: How a Simple Pencil Trace Can Unlock Genetic Secrets
Discover how scientists transformed pencil graphite into a powerful sensor using copper nanoparticles to detect adenine, a fundamental DNA component.
The Molecular Bouncer: Building a Tiny Sensor That Picks Its Target
Discover how a hybrid material of nickel hexacyanoferrate and PEDOT creates ultra-selective electrochemical sensors for precise Vitamin C detection.
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 Molecular Snipers: How Next-Gen Biosensors Are Catching Dopamine Red-Handed
Discover how electrochemical aptasensors are revolutionizing dopamine detection with unprecedented precision in neurological research and diagnostics.
The Silent Spark: How a DNA-Wrapped Sensor is Revolutionizing Cellular Health Monitoring
Breakthrough in NADH detection using nickel phthalocyanine, DNA, and graphene composite for advanced cellular health monitoring.
The Silent Symphony in Our Blood: Decoding Chemical Triathlons with Smart Electrodes
Breakthrough in simultaneous detection of dopamine, ascorbic acid and uric acid using poly(vinyl alcohol) modified electrodes
The Silent Language of Biomarkers: Decoding L-Tyrosine with Nanotech Electrodes
Discover how nanomaterial-modified electrodes revolutionize L-tyrosine detection for early disease diagnosis and personalized medicine.
The Silver Bullet for MicroRNA: Lighting the Path to Ultra-Sensitive Disease Detection
Revolutionary microRNA detection strategy combining TiO₂ photocatalysis and guanine photoreduction for attomolar sensitivity in disease diagnostics
The Vitamin Detective: How a Zapped Electrode Spots B2 in a Crowd
Discover how electrochemically activated glassy carbon electrodes enable selective detection of Vitamin B2 in complex samples with enhanced sensitivity and accuracy.