The Lahann Lab at the University of Michigan discusses how nanomedicine benefits by bridging biology, engineering, and materials.

The Lahann Lab at the University of Michigan discusses how nanomedicine benefits by bridging biology, engineering, and materials.
Bridging the gap between biology and electronics, researchers develop biocompatible materials for next generation biosensors, cell monitoring, neuromorphic computing, and more.
Freshwater ecologists are becoming interested in noninvasive surveying techniques, such as ecoacoustics, to gather crucial data and plan conservation efforts.
Researchers at Osaka University are helping to power portable sensors that do not use batteries by generating electricity from heat that is otherwise wasted.
Exploring advances in extracellular vesicles research made in the last ten-years and how its leading to better clinical applications.
Understanding how mRNA localization changes during healthy brain functions and pathological conditions.
One drug, three modes of action: Clinicians combat the drug resistances of some cancer types by using a combination of different drugs.
Researchers have created and structured a collection of freely accessible global datasets to support future studies on floods, droughts, and their interactions with changing societies.
Archimedean spirals for flexible heat actuator-sensor devices.
Researchers from Newcastle University and the James Hutton Institute explore how catchment systems engineering can be a holistic approach to solving some environmental problems.