In mammals, hair follicles emerge during embryonic development, forming geometric patterns that vary from one species to ...
A new "tumor-on-a-chip" model is giving scientists a live look at how pancreatic cancer can recruit the body's own immune ...
Researchers studying the impact of cocaine in mice have found that just one exposure to the drug can create changes in brain cells that persist for at least two weeks.
For centuries, humanity has wrestled with a profound question: what truly separates non-living matter from actual, breathing ...
Scientists captured malaria's invasion structure in atomic detail, revealing how it actively reshapes red blood cell ...
A new study establishes an experimentally validated basis for predicting excitonic properties via dielectric screening.
Researchers from Heinrich Heine University Düsseldorf (HHU) have—in collaboration with colleagues from Ludwig Maximilian ...
By Kennedy Maize Fuel cells, a proven way to make electricity without combustion, fission, or gravity, are making serious inroads into the red-hot market for producing power for artificial ...
A framework for analyzing single-cell genomics data, in which geometrical properties are harnessed to obtain insights on cellular diversity, including precise clustering, clear visualizations, and ...
Researchers have developed a predictive framework for 2D perovskite design to enable more efficient, stable solar cells.
A mild oxalic-acid-based hydrometallurgical process enables efficient indium recovery from indium tin oxide in solar cell waste while simultaneously releasing silver grids. The approach achieves ...
Synthetic organizers provide a way to control formation of kidney organoids as more reliable models for studying disease and ...