Research Articles
The Tiny Detective: Catching a Hidden Pesticide with a 3D-Printed Sensor
Discover how biochar-modified 3D-printed sensors are revolutionizing food safety by detecting Carbendazim pesticide with unprecedented sensitivity and affordability.
The Cellular Sugar Code: Cracking Cancer's Secret Message with a Golden Key
Discover how a novel biosensor using gold nanoparticles and specific antibodies can detect cancer biomarkers for early-stage diagnosis.
The Double-Agent Enzyme: How Catalase Biosensors are Revolutionizing Ethanol Detection
Explore how catalase-based biosensors leverage enzymatic dual functionality for precise ethanol detection across industries including food, biofuel, and clinical applications.
The Cellular Detective: How Red Blood Cells and Nanotech are Revolutionizing Hydrogen Peroxide Detection
Exploring the groundbreaking biosensor technology using red blood cells and Fe₃O₄/Au nanoparticles for hydrogen peroxide detection
Breaking the Silence: How Graphene and DNA Amplification are Revolutionizing Livestock Disease Detection
Discover how isothermal DNA amplification with functionalized graphene and nanoparticle assisted electroanalysis enables rapid detection of Johne's disease in livestock.
The Flower Power Biosensor: How Nanotechnology Mimics Nature to Detect Hydrogen Peroxide
Discover how a biomimetic biosensor with platinum flowers on magnetic graphene detects hydrogen peroxide with nature's precision and nanotechnology's durability.
The Nano-Detective: How a Tiny Biosensor Revolutionizes Chemical Detection
Explore the revolutionary Pt-doped FeP-C hollow nanorod and hemoglobin-based electrochemical biosensor that detects chemicals with remarkable precision.
Tiny Strip, Giant Leap: The Biosensor Revolution on a Graphite Canvas
Discover how screen-printed graphite microbands are revolutionizing biosensing technology, enabling cheap, portable detection of health markers and environmental toxins.
The Molecular Traffic Jam: A New Sensor to Untangle Critical Biomolecules
Discover how a modified carbon nanotube sensor can simultaneously detect 6-Thioguanine, Uric Acid, and Folic Acid with unprecedented precision.
The Molecular Bouncer: How Enzyme Dual-Electrode Biosensors Work
Discover how enzyme dual-electrode biosensors combine biology and electronics to create highly accurate medical diagnostic tools that eliminate interference.