Search results (105)

Name Description
New NMR technique could lead to better batteries

Scientists can now observe lithium moving through an electrolyte in real time.

Cheaper ways to make strong permanent magnets

New technique transforms common materials into powerful magnets.

Researchers observe exotic superfluid in graphene

Two independent research teams observed same behavior in double bilayer graphene.

Connection between superconductivity and insulator-metal transition

The finding in fullerides opens a new way of exploring the role electron interactions play in high-temperature superconductivity

Pressure converts an insulator into a metal

The novel behavior could help scientists better understand the mechanisms behind high-temperature superconductivity.

Magneto-structural correlations in a transition metal complex

In the field of inorganic chemistry, magneto-structural correlations have been used to rationally design molecules with desirable properties, and to relate these properties to the electronic and geometric structures. In turn, such studies provide powerful tools for understanding important catalytic processes, as well as elucidating the structures of active sites in metalloproteins. This study reveals an unusually strong sensitivity of the magnetic properties of a CoS4 molecule to minute changes in its structure.

New record NMR magnet reaches peak performance

Producing a high magnetic field that is also very stable and uniform, the unique Series Connected Hybrid magnet is being put to work on NMR experiments never before possible.

Helium nanodroplets shed light on phase separations in other materials

Observing growth processes in classical alloys is extremely difficult; scientists overcame this by studying quantum systems.

Better joints to connect wires of promising superconductor

The new technique for connecting Bi-2212 round wires is an important step in building better, stronger superconducting magnets.

Tunable, 2D semiconductors could be tomorrow's nano-sensors

Scientists discovered how to tune the optical properties of atomically-thin semiconductors, which will aid the design of future microscopic light sensors.

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