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Computation CHANGE TOPIC

Computation and theory news

The strain created by growing 2D crystals over 3D objects can be used to tailor the crystals' optoelectronic properties.

A previously undiscovered interaction between two thin magnetic layers separated by a non-magnetic layer could lead to better data storage.

By understanding the precise sequence of charged monomers, researchers can predict the behavior of disordered strands of proteins and polymers.

By incorporating liquid metal droplets into an elastomer, researchers have created a highly stretchable, soft, multi-functional composite.

The electronic properties of the 2D semiconductor tungsten disulfide can be dramatically changed by doping it with carbon-hydrogen molecules.

Engineers have developed a high-throughput computational method to design new hybrid organic-inorganic materials for solar cells and LEDs.

Scientists have discovered that the elasticity of gels arises from the packing of clusters of particles, dubbed locally glassy clusters, in the gels.

Nanocubes coated with single-stranded DNA chains assemble into an unusual ‘zigzag’ arrangement that has never been observed before.

Cardiac patch that can be placed directly onto the heart for treatment of heart disease

Researchers have developed a machine-learning algorithm that can accurately predict the mechanical properties of metal organic frameworks.

quasiparticles detected experimentally for the first time

Scientists have discovered that applying strain to 2D materials such as doped-graphene could increase their critical superconducting temperature.

Now open for Original Research and Review article submission.

Using supercomputers, researchers are identifying the best combination of cobalt oxides and transition metals for converting heat to electricity.

Calling Early Career Researchers attending ChinaNANO.

A new algorithm that can accurately predict the mechanical behavior of glass at different temperatures could aid the discovery of new materials.

Researchers have shown that water in pores can slow the motion of charges in organic semiconductors and found a way to prevent this happening.

A new study proposes that single photons can interact with each other on graphene surfaces, suggesting new designs for optical quantum computers.

Novel spray-on polymer coatings cause ice to fall away from large surfaces with just the force of a light breeze, or often the weight of the ice itself.

Researchers have calculated that applying an oscillating voltage should cause the electrons in graphene to flow like a liquid.

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