Physicists at the National University of Singapore have innovated a concept to induce and directly quantify spin splitting in two-dimensional materials. By using this concept, they have experimentally achieved large tunability and a high degree of...
Jan 6, 2024
Researchers at the University of Hong Kong, National Center for Nanoscience and Technology in Beijing, Harvard University and the University of Stuttgart have advanced the field of molecular sensing by developing a novel method to improve the sens...
Jan 6, 2024
Using a new technology developed at MIT, diagnosing lung cancer could become as easy as inhaling nanoparticle sensors and then taking a urine test that reveals whether a tumor is present.
Jan 5, 2024
The pathogenic potential of inhaling the inert fibrous nanomaterials used in thermal insulation (such as asbestos or fiberglass) is actually connected not to their chemical composition, but instead to their geometrical characteristics and size. Th...
Jan 5, 2024
The diagnostic, which requires only a simple urine test to read the results, could make lung cancer screening more accessible worldwide.
Jan 5, 2024
The pathogenic potential of inhaling the inert fibrous nanomaterials used in thermal insulation (such as asbestos or fiberglass) is actually connected not to their chemical composition, but instead to their geometrical characteristics and size.
Jan 5, 2024
Using a new technology developed at MIT, diagnosing lung cancer could become as easy as inhaling nanoparticle sensors and then taking a urine test that reveals whether a tumor is present.
Jan 5, 2024
A groundbreaking study by a Swedish-German team has tracked ultrafast electron dynamics with unparalleled precision, opening new avenues in nanomaterial and solar cell research.
Jan 5, 2024
Combining pH nanosensors and super-resolution microscopy illuminates transient signaling between cellular organelles, unlocking new vistas for diagnosing and manipulating inter-organelle crosstalk.
Jan 5, 2024
A team of researchers based at the University of Toronto’s Leslie Dan Faculty of Pharmacy have discovered an ionizable lipid nanoparticle that delivers mRNA to muscles while avoiding other tissues.
Jan 5, 2024
