Research Articles
Nature's Light-Driven Robots: The Rise of Bio-Inspired Photonic Crystal Actuators
Discover how bio-inspired photonic crystal actuators are revolutionizing materials science by converting light energy directly into mechanical motion.
Bone Marrow in a Dish: How Miniature Organs Are Revolutionizing Cancer Treatment
Discover how bone marrow organoids are transforming blood cancer research and treatment through revolutionary 3D models that mimic human bone marrow.
Molecular Hijackers: The Proteins That Pave Breast Cancer's Path to the Brain
Discover how specific proteins are revolutionizing our understanding of breast cancer brain metastasis and opening new avenues for treatment.
Printing New Cartilage: How 3D Bioprinting is Revolutionizing Joint Repair
Explore how 3D bioprinting technology is advancing functional cartilage regeneration through innovative bioinks, printing techniques, and patient-specific implants.
Breathing Easy: How Advanced Biosensors Are Revolutionizing Air Quality Monitoring
Discover how advanced biosensors are transforming air quality monitoring with real-time detection of atmospheric pollutants at molecular levels.
The Cell's Secret Clock: How Watching Movies, Not Snapshots, is Revolutionizing Drug Discovery
Discover how live-cell imaging and temporal analysis are transforming drug discovery by revealing the dynamic cellular responses that static snapshots miss.
Tiny Crystals, Big Breakthrough: How a Novel Material Is Revolutionizing Cancer Detection
Discover how metal-organic frameworks (MOFs) like UiO-66-NH2 are transforming cancer detection through advanced metabolomics analysis.
Crafting the Future of Healing: Tailoring Peptide Hydrogels for Tissue Engineering
Explore how self-assembling peptide hydrogels are revolutionizing tissue engineering with antimicrobial properties and enhanced cell adhesion capabilities.
Magnetic Sorting: How Tiny Fluids Are Revolutionizing Cell Separation
Explore how ferrohydrodynamic microfluidic chips use magnetic fluids to sort cells by size without labels or contact, revolutionizing biomedical research and diagnostics.
The Cancer Drug Traffic Jam: How a New Model Predicts When Treatments Clash Instead of Collaborate
Discover how IPDsim, an interpretable model, predicts clinical antagonism in cancer combination therapies for personalized treatment.