Electronic properties news, June 2020

Bright future for printing LEDs from hybrid perovskite solution

By utilizing a seed crystal, researchers have succeeded in printing functional light-emitting diodes from a hybrid perovskite solution.

Impurities play major role in melting process

Using tiny polystyrene beads arranged in a crystalline lattice, researchers have discovered that impurities play a major role in the melting process.

Cascade to superconductivity in magic-angle graphene

Researchers have detected signatures of a cascade of energy transitions that could help explain how superconductivity arises in magic-angle graphene.

Improving energy storage and modeling for new energy materials

New structural supercapacitor electrode produced from nanofiber materials

How to boost the tin in your GeSn semiconductor alloys

How to boost the tin in your GeSn semiconductor alloys

Light touch triggers repeated polymerization at nanoscale

new reaction process uses light to trigger the growth of polymer layers on a metal nanoparticle

Rule-breaking composite boasts novel electrical properties

By combining tandem repeat proteins with the 2D material MXene, researchers have produced a composite material with novel electrical properties.

New study shines light on boron nitride nanotubes

By combining them with fluorescent molecules, researchers have, for the first time, been able to study the real-time dynamics of boron nitride nanotubes.

Computational tools put novel spin on quantum materials

Researchers have developed a theoretical foundation and computational tools for accurately predicting the spin dynamics of any material.

Nitrogen produces 2D material when forced to follow rules

At very high temperatures and pressures, nitrogen can adopt the same 2D crystalline structure as black phosphorus.

Hopfion knots found hiding in ferroelectric nanoparticles

Computer simulations have revealed that the polarization of ferroelectric nanoparticles adopts a geometrical structure of knots called a Hopfion.

New study confirms 2D material has edge on topological superconductivity

Scientists have uncovered evidence that the 2D material tungsten ditelluride conducts electricity in very narrow channels at its outer edges.

Conjugated polymers enter a new dimension

For the first time, researchers have synthesized large-scale 2D conjugated polymers, and thoroughly characterized their electronic properties.

Hollow carbon balls hit tumors harder

hollow carbon loaded with drugs can be given a boost by bombarding them with microwaves and laser irradiation to treat tumors

Electrons break rotational symmetry in metallic superconductor

The transport of electronic charge in a strontium ruthenate superconductor breaks the rotational symmetry of the underlying crystal lattice.

Quantum state could be ‘reincarnated’ in 3D topological materials

Physicists have found surprising evidence that an electronic state known as the quantum Hall effect could be ‘reincarnated’ in 3D topological materials.

Plant power for nanoparticles

Leading the way to better LEDs