Cryopreserving tissues and organs without damaging them requires a delicate dance through the principles of thermodynamics. Carnegie Mellon University's Biothermal Technology Laboratory has a novel modeling approach for isochoric ...
Biotechnology
Aug 16, 2022
0
133
A team led by University of Minnesota Twin Cities researchers has discovered how subtle structural changes in strontium titanate, a metal oxide semiconductor, can alter the material's electrical resistance and affect its ...
Superconductivity
Jun 1, 2022
0
150
A recent study by researchers from the Chinese Academy of Sciences redefines how liquids maintain their contact with solid surfaces—also known as wettability—from an intermolecular force perspective.
Nanophysics
Apr 8, 2022
0
33
Today, quantum systems are becoming increasingly important for technological innovations in information processing, cryptography, photonics, spintronics, and high-performance computing. They are in constant interaction with ...
Condensed Matter
Mar 29, 2022
0
54
Metallic materials used in engineering must be strong and ductile—capable of carrying high mechanical loads while able to withstand deformation without breaking. Whether a material is weak or strong, ductile or brittle, ...
Materials Science
Mar 22, 2022
0
16
Soil is the unsung hero of our lives. It provides nourishment to crops to provide us with food, offers drainage for rainwater into aquifers, and is a habitat for a variety of organisms. On the microscopic level, soil thrives ...
Biotechnology
Feb 22, 2022
0
268
Moving heat around where you want it to go—adding it to houses and hairdryers, removing it from car engines and refrigerators—is one of the great challenges of engineering.
Condensed Matter
Sep 30, 2021
0
319
Microscopic roundworms may hold the key to understanding what is happening in the brain when the instinct of an animal changes in order to survive. In a newly published paper in the journal Current Biology, University of ...
Plants & Animals
Aug 25, 2021
0
365
Properties of materials are often defined by imperfections in their atomic structure, especially when the material itself is just one atom thick, such as graphene. Researchers at the University of Vienna have now developed ...
Nanophysics
Jun 18, 2021
0
17
Mussels survive by sticking to rocks in the fierce waves or tides underwater. Materials mimicking this underwater adhesion are widely used for skin or bone adhesion, for modifying the surface of a scaffold, or even in drug ...
Materials Science
Jun 1, 2021
0
8
