Materials research generates vast amounts of data, but the information often exists in manufacturer-specific formats and the terminology is inconsistent, making it difficult to aggregate, compare, and ...

Scientists are learning how to temporarily reshape materials by nudging their internal quantum rhythms instead of blasting them with extreme lasers. By harnessing excitons, short-lived energy pairs ...

Many natural compounds that act on the human body provide active ingredients for medicines or clues for developing them, and ...

For a long time, material development has focused on enhancing performance and reducing costs. Efforts have been directed toward making products lighter, tougher, better insulated, more beautiful, ...

Graphene has long been hailed as a "wonder material." It is incredibly strong, highly conductive and almost impossibly ...

Clinical expectations in minimally invasive interventions is rising, making collaboration in the medical value chain ...

Inspired by the remarkable camouflage abilities of octopus and cuttlefish, Stanford researchers have developed a soft material that can rapidly shift its surface texture and color at extremely fine ...

The integration of self-driving laboratories and advanced automation software is revolutionising the fields of chemistry and materials science. By harnessing the power of robotics, artificial ...

Featuring interventional and implant device CDMO capabilities, cleanroom manufacturing, and advanced barrier protection ...

An introductory course focused on the new and existing materials that are crucial for mitigating worldwide anthropogenic CO2 emissions and associated greenhouse gases. Emphasis will be placed on how ...

Dhruv Shenai investigates how machine learning and lab automation are transforming materials science at Cambridge ...

Conduction is the direct flow of heat from your warm body into your colder surroundings. In winter, all that heat escaping ...