Research Articles
The Body's Own Trojan Horse: Hijacking Cells to Deliver Medicine
Explore how cell membrane-based drug delivery systems are revolutionizing medicine by using the body's own cells as precision drug carriers.
Building with Atoms: The Robotic Revolution Crafting Our Molecular Future
Explore how robotic technology and innovative chemistry are revolutionizing polymer architecture control, enabling breakthroughs in medicine and materials science.
The Molecular Architects: Building the Super-Carbons of the Future
Explore how modern chemistry enables precise synthesis of extended aromatic compounds like graphene nanoribbons for next-generation electronics and materials.
Nature's Nano-Alchemists: Turning Leaves into Tiny Powerhouses
Explore how plants, fungi, and bacteria create nanoparticles through biogenic synthesis - the green future of nanotechnology.
Biological Synthesis of Monodisperse Poly(α,L-glutamic Acid): The Perfect Rodlike Polymers
Explore the fascinating world of monodisperse PGA - biologically synthesized rodlike polymers with revolutionary applications in nanotechnology and medicine.
The Tiny Architects: Building a Better World, One Molecule at a Time
How the Science of Amphiphile Nanoarchitectonics is Revolutionizing Medicine, Technology, and Beyond
Revealing the Hidden Dance: How Charge and Temperature Control Molecular Machines
Explore how temperature-induced softening and electrical charge control the fundamental movements of molecular machines at the nanoscale.
The Next Revolution in Molecular Separation: Engineered Silica Membranes with Precision Pores
Discover how modified mesoporous silica membranes with controlled pore size and surface functionalization are revolutionizing molecular separation technology.
The Molecular Symphony: Conducting Matter with Precision Polymer Chemistry
Explore how precision polymer chemistry is revolutionizing materials science through atomic-level control, from smart medicines to self-healing materials.
How a Water Droplet Triggers Extreme Shape Changes in Thin Membranes
Discover how elastocapillarity enables water droplets to induce dramatic shape transformations in thin membranes, with applications in nanotechnology and soft robotics.