New microscopy and simulations show how water interacts with two forms of chitin, revealing why one is more reactive and a better fit for future bio-based technologies.
A Northwestern team transformed a common chemotherapy drug into a powerful, targeted cancer therapy using spherical nucleic ...
Prayagraj: In a breakthrough that could reshape the future of viral medicine, a novel approach to fighting severe respiratory ...
EMBL researchers have been using a powerful technique called expansion microscopy to peek deeper inside living organisms and ...
Interesting Engineering on MSN
Germanium hits superconducting state in breakthrough that could power quantum chips
Scientists have successfully made germanium, a key semiconductor used in computer chips and fiber optics, superconducting for ...
Scientists at Northwestern University have redesigned the chemotherapy drug 5-fluorouracil as a spherical nucleic acid ...
3don MSN
Molecular dynamics simulations use atomistic force field to capture RNA folding with high accuracy
Ribonucleic acid (RNA) is one of life's most versatile molecules, with roles going far beyond being a messenger of genetic ...
Tribune Content Agency on MSN
Scientists use nanotechnology to turn chemotherapy drug into cancer super cure
Scientists at Northwestern University in Evanston, Illinois, have used nanotechnology to re-engineer the molecular structure ...
This article explores how advances in automation, 3D cell models and AI are transforming high-throughput screening, driving ...
Explore CRISPR technology explained, gene editing science, DNA modification, and genetic engineering ethics—discover how ...
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