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Characterization CHANGE TOPIC

Characterization news, October 2018

The strength of a particular chemical bond in cuprates influences the temperature at which they achieve superconductivity.

A novel light-based atomic force microscopy technique can measure how and where a material's physical properties change during 3D printing.

Using a supercomputer, scientists have managed to predict the electrical and optical properties of hybrid organic-inorganic perovskites.

Researchers have combined experiment and theory to elucidate the electronic structure and optical behavior of novel gold and silver alloys.

Scientists have probed a superionic crystal with neutrons and X-rays to determine how it can possess both solid and liquid properties.

Researchers have come up with a novel molecular approach for improving the piezoelectric properties of organic polymers.

Scientists have found that the protective oxide films that form on metals can trap other atoms inside them, which influence many of the film’s properties.

Inspired by arthropod shells, researchers have 3D-printed structural elements from cement paste that get tougher under pressure.

Combining Mössbauer spectroscopy with ‘center of gravity’ analysis can reveal how the oxidation state of iron oxide nanoparticles changes over time.

Halide perovskites can maintain their crystalline structure even while the atoms in their crystals undergo unusually large-scale vibrational motion.

hybrid material based on transition metal selenide could be a nonprecious metal alternative electrocatalyst for hydrogen generation

Read the review papers published in the Special Issue on Surface Modification and Characterization on Nanodiamond Particles.

A unique combination of imaging tools and atomic-level simulations has revealed that a hybrid organic-inorganic perovskite film is ferroelastic.

Allenby and colleagues developed a tissue-engineered 3D hollow-fibre perfusion bioreactor system.

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