Research Articles
Ion Tracks: Sculpting the Invisible with Atomic Precision
How nuclear physics phenomenon ion tracks is revolutionizing nanotechnology through atomic precision engineering
The Rise of Plastic Electronics: How Oriented Conductive Polymers Are Shaping Our Future
Exploring how oriented electronically conducting polymers combine electrical properties of metals with flexibility of plastics, revolutionizing technology from flexible displays to brain implants.
The Molecular Keychain: Building Smart Biodegradable Polymers for Medicine
Explore how scientists create thiol-reactive biodegradable polymers for targeted drug delivery, tissue engineering, and advanced medical applications.
The Frontier of Materials Science: Unveiling the Future at the 9th International Conference on Novel Materials
Explore groundbreaking innovations in materials science from the 9th International Conference on Novel Materials and their Synthesis, featuring advanced polymers, energy systems, and nanomaterials.
DNA Hydrogel: The Programmable, Life-Saving Jelly
Explore the fascinating world of DNA hydrogel assemblies - smart, programmable materials that can think, react, and heal. Learn about their synthesis principles and biomedical applications.
The Secret of Seashells: Scientists Create a Super-Gel That Heals Itself
Discover how scientists created a layered PNIPAM-clay nanocomposite hydrogel inspired by seashells, with exceptional strength and self-healing capabilities.
The Plasmonic Symphony: How Scientists Are Mixing Waves to Revolutionize Technology
Explore the fascinating world of plasmonic wave mixing and how it's revolutionizing technology through enhanced light manipulation at the nanoscale.
Starch Nanocomposites: From Kitchen to Advanced Materials
Explore how scientists transform simple starch into high-tech, eco-friendly starch nanocomposites with enhanced properties for sustainable applications.
Click Chemistry: The Molecular LEGO Revolutionizing Drug Delivery
Discover how click chemistry is transforming drug delivery through precise molecular assembly techniques for polymers, dendrimers, and hydrogels.
The Great Polymer Twist: How Charged Chains Build Super Helices
Discover how partially charged diblock copolymers self-assemble into super helices, enabling revolutionary nanotechnologies from drug delivery to advanced materials.