Research Articles
Liquid Brainpower: How Squishy Peptide Blobs Could Revolutionize Supercomputing
Exploring how pH-switching peptide assemblies called tectomers could enable zettascale computing with unprecedented energy efficiency and processing power.
The Fragile Barrier: How Animal Diseases Threaten Human Health in an Interconnected World
Exploring how zoonotic diseases jump from animals to humans and the cutting-edge science fighting back against these threats in our interconnected world.
Cultivating Biovisionaries: How Entrepreneurship Education Transforms Biology Graduates into Job Creators
Exploring how integrating entrepreneurship into biology curricula transforms students from job seekers into innovators who launch bio-enterprises.
Seeing the Unseen: A Revolutionary Microscope That Maps Molecules in 3D
Discover how combined TIR-SFG spectral imaging and confocal fluorescence microscopy revolutionizes molecular interface studies with unprecedented 3D mapping capabilities.
The Redox Revolution: Stitching Proteins with Molecular Precision
Breakthroughs in redox-controlled chemical protein synthesis enabling atomic-level precision in protein assembly for therapeutics and materials.
Digital Alchemists: How Computer Models Are Revolutionizing Drug Discovery
Explore how in silico modelling is transforming drug discovery through computational approaches, AI, and virtual screening techniques.
The Invisible Molecular Detective: How Real-Time PCR Revolutionized Disease Detection
Explore how real-time PCR technology transformed disease detection from COVID-19 testing to cancer research and food safety.
The Lactoferrin Lifeline: How a Milk Protein Conducts Your Immune Symphony
Exploring lactoferrin's role as an immune modulator in balancing immunologic dissonance and its clinical applications from neonatal care to inflammatory diseases.
The Hidden Codes of Cancer Inequality: How Our Environment Writes Its Own Diagnosis
Exploring how structural and social determinants shape cancer disparities across different populations and geographies.
The Silent Conductor: How Cholera's Hidden Subunit Orchestrates Immune Cell Alarms
Exploring how cholera toxin's B subunit (CT-B) commands immune cells through calcium signaling, reshaping our understanding of bacterial toxins and immune regulation.