Research Articles
The Invisible Interface: How Surface Chemistry Builds the Biosensors of the Future
Explore how surface chemistry enables the creation of advanced biosensors for healthcare, environmental monitoring, and disease detection.
The Invisible Force of Life: How Dielectrophoresis is Revolutionizing Medicine
Explore how dielectrophoresis (DEP) is transforming medical diagnostics and treatments through precise cellular manipulation using non-uniform electric fields.
Building the Future One Atom at a Time: The Marvel of Molecular Beam Epitaxy
Explore how molecular beam epitaxy enables atomic-level precision in creating revolutionary 2D materials like graphene, silicene, and borophene in ultra-high vacuum conditions.
How Cells Choose Their Metals: A Cellular Treasure Hunt
Explore how proteins select specific metal ions using HSAB theory and Protein Data Bank structures to understand cellular metal specificity.
Nanopore Biosensors: Where Ionic Current Meets Electronic Signal
Explore the revolutionary technology of nanopore biosensors that operate at the interface of ionics and electronics, enabling single-molecule detection and analysis.
The Invisible Art of Sensing: How Inkjet Printing and Sol-Gel Chemistry Create pH-Sensitive Surfaces
Explore how the combination of inkjet printing and sol-gel chemistry is revolutionizing pH-sensitive surface technology for biomedical, environmental, and industrial applications.
The Browning Artist: How Tyrosinase Shapes Our World
Explore the fascinating world of tyrosinase - the enzyme behind fruit browning, skin pigmentation, and cutting-edge medical applications.
The Nano-Detective: How a Tiny Transistor is Revolutionizing Disease Detection
Explore how Gate Stack DG-MOSFET technology is transforming biosensing with unprecedented sensitivity for medical diagnostics.
Thirsty Earth: The Silent Crisis of Rajasthan's Groundwater
Exploring how environmental parameters influence groundwater contamination in Rajasthan, India, and its impact on public health.
The Invisible Handshake: How Rocks and Dead Stuff Shape Our World
Exploring the fundamental interaction between minerals and organic matter that shapes our world's fertility, climate, and environment.