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Computation CHANGE TOPIC

Computation and theory news

Using machine learning and a form of atomic force microscopy , researchers have mapped the polarization pattern in ferroelectric materials.

Fabricating chalcogenide glasses as nanowires can extend their use into the visible and ultraviolet parts of the electromagnetic spectrum.

By engineering electron donor and electron acceptor materials, researchers can overcome a key loss mechanism in organic solar cells.

Researchers have shown that with a bit of strain and a weak magnetic field they can drive the electrons in strontium niobate to the extreme quantum limit.

Researchers have created a collaborative artificial intelligence tool that reduces the time and effort required to discover truly new materials.

calculations identify diffusion paths of Se in CdTe, boosting thin film solar cell efficiency

Researchers have developed a computational model that can accurately determine the effect of sputtering on complicated, rough surfaces.

Researchers have shown that the odd harmonics of light can be used to study twisted, or chiral, nanoparticles and molecules.

Synthesis of molecular nano “spheres” with potential for semiconductors

Researchers have developed a theoretical model that can rapidly determine the strength of high-entropy alloys at high temperatures.

Center for Atomically Thin Multifunctional Coatings, operated by Penn State and Rice Universities, secures $1.5 million in Phase II funding from NSF

When cesium, copper and zinc oxide are brought together in a certain configuration they can catalyze the conversion of carbon dioxide to ethanol.

By synthesizing the first 1D cuprate that can be doped, scientists have uncovered an unexpectedly strong nearest-neighbor attraction between electrons.

Researchers have discovered how to get cheap commercial silica nanocages to trap noble gases like argon, krypton and xenon.

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