Europe's green transition threatens 6.2M jobs, but decarbonization tech could save 4M. A new study details regional and occupational risks.
Polycystic Ovary Syndrome (PCOS) is now Polyendocrine Metabolic Ovarian Syndrome (PMOS). This global renaming reflects a deeper understanding of the condition's complex endocrine and metabolic nature.
Modern overdose mysteries are complex polydrug challenges. Syringe residue analysis offers a vital 'chemical snapshot,' empowering forensic science to solve these cases.
Rapid EV adoption creates a global fiscal crisis as fuel tax revenues vanish. Poorest nations face disproportionate pressure, risking fiscal collapse.
A new study reveals the Western U.S. faces the highest hantavirus risk, a deadly disease spread by rodents. Learn about this silent threat and its implications.
Solar power can electrify 500,000 African schools, transforming education for millions and shaping the global economy with a €2B investment.
Revolutionary AI from University of Limerick and Galway enhances breast cancer detection, making algorithms transparent and more accurate for clinicians.
New optical methods reveal how CRISPR-Cas9 activates at the molecular level, offering insights that could improve gene-editing tools for medicine.
Rapid growth in Caucasus economies drives wage hikes, spilling into services and fueling persistent inflation—a critical Balassa-Samuelson effect.
Unraveling the 'shape secret' of lipid nanoparticles: new research shows internal architecture, not just composition, dictates success in genetic therapies.
Researchers found gold atoms form a complex cluster on ferritin, revealing new insights for targeted cancer drug delivery using protein carriers.
New research uses AI and nanofiltration to revolutionize industrial chemical separations, cutting energy consumption and emissions by up to 40%. A roadmap for a cleaner future.
Uncover the hidden forces driving successful digital transformation. Learn how individual actions and sociotechnical micro-foundations enable real change.
Chemists developed molecular rings to transform nitrate pollution into valuable ammonia fertilizer using electricity, offering a sustainable solution to critical environmental issues.
Thousands of clean energy projects are stalled in America's grid interconnection queue, facing soaring costs and years of delays. Explore the systemic issues.
Wearable sensors and transparent AI reveal critical insights into stroke patient rehabilitation, helping therapists optimize healing pathways with unprecedented clarity.
New AI framework COMET leverages vast medical records to pretrain neural networks, dramatically improving biological insights from scarce omics data.
Fungal protein Neorhodopsin demonstrates an unprecedented light-switching energy relay between its dimeric units, revealing novel optogenetic mechanisms.
Uncover the secrets of scale worms, marine annelids thriving in the crushing depths of the abyssal and hadal zones, redefining deep-sea life.
AI and open source are reinventing materials discovery, enabling innovations faster than ever. A new review details this scientific revolution.
A breakthrough in material science: synthetic skin that's steel-strong and fully self-healing, overcoming a fundamental engineering trade-off.
New research unveils the 'marginal majority effect,' explaining why inferior ideas and options often go viral and become permanently entrenched in society.
Scientists unveil a breakthrough molecule for artificial photosynthesis, mimicking nature's energy trick to efficiently generate power, even in air.
Giant worms thrive in deep-sea graveyards of shrimp shells, revealing new energy sources in extreme hydrothermal vent ecosystems. A decade-long discovery.
New research reveals textured surfaces can revert stem cells to their potent naive state, offering a groundbreaking method for regenerative medicine and developmental studies.
Oxford research reveals America's green job future isn't a steady stream. Prepare for a dramatic three-phase rollercoaster of boom, bust, and a new normal.
New AI tool MUNIS dramatically improves prediction of viral targets for T cells, accelerating vaccine development and transforming pandemic response strategies.
