Can bacteria make stronger cars, airplanes and armor?
Biological systems can harness their living cells for growth and regeneration, but engineering systems cannot. Until now.
Biological systems can harness their living cells for growth and regeneration, but engineering systems cannot. Until now.
Materials Science
Feb 22, 2021
0
59
In solid-state physics, the precise interactions of electrons are analyzed through meticulous detective work, ultimately to gain a better understanding of fundamental physical phenomena.
Quantum Physics
Feb 19, 2021
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821
We are most familiar with the four conventional phases of matter: solid, liquid, gas, and plasma. Changes between two phases, known as phase transitions, are marked by abrupt changes in material properties such as density. ...
General Physics
Feb 19, 2021
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43
A group of researchers from the Fritz Haber Institute of the Max Planck Society and the Humboldt-Universität zu Berlin have found out that a semiconductor can be converted to a metal and back by light more easily and more ...
Nanophysics
Feb 17, 2021
1
1413
Researchers have identified a new form of magnetism in so-called magnetic graphene, which could point the way toward understanding superconductivity in this unusual type of material.
General Physics
Feb 8, 2021
2
8374
An international team of scientists has invented the equivalent of body armour for extremely fragile quantum systems, which will make them robust enough to be used as the basis for a new generation of low-energy electronics.
Nanophysics
Feb 8, 2021
0
1680
Microstructure and macroscopic electro-mechanical properties are closely coupled in so-called ferroelectric polymers. An explanation for the high temperature dependence of this coupling has now been found at TU Wien.
Materials Science
Feb 8, 2021
0
22
When we think about the links to the future—the global transition to solar and wind energy, tactile virtual reality or synthetic neurons—there's no shortage of big ideas. It's the materials to execute the big ideas—the ...
Nanomaterials
Feb 4, 2021
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44
NUS scientists have demonstrated a general approach for characterizing the atomic structure and electronic and magnetic properties of two-dimensional (2-D) magnetic insulators using scanning-tunneling microscopy.
Nanophysics
Feb 3, 2021
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26
A fascinating and crucial ability of biological tissue, such as muscle, is self-healing and self-strengthening in response to damage caused by external forces. Most human-made polymers, on the other hand, break irreversibly ...
Materials Science
Feb 2, 2021
0
76