Inverted perovskite solar cells offer strong potential for scalable, low-cost solar power, but a hidden interface inside the ...

Crystal growth and solidification dynamics constitute a critical domain within materials science, where the interplay between thermodynamic driving forces and kinetic constraints determines the ...

NYU researchers have found a way to use light to control how microscopic particles assemble into crystals, effectively ...

Czochralski growth, also called the Czochralski method or technique, is a method for growing high-quality single crystals of various materials. It finds wide application in the semiconductor industry, ...

Vols. 1, 3 constitute reports of 1st-2nd Conference on Crystal Growth, held in 1956 and 1959 and sponsored by the Institute of Crystallography, Academy of Sciences, USSR; v. 2 contains interim reports ...

For more than two decades, the International Space Station has provided a platform for growing and studying protein crystals. In the early days of microgravity research, scientists discovered that ...

Research from the Chin-Yi University of Technology in Taiwan revealed a novel heater design in the Czochralski silicon crystal growth process that can control and decrease oxygen concentration without ...

Scientists at Oak Ridge National Laboratory have discovered that a specially engineered tantalum-tungsten-selenium crystal spontaneously forms atomic clusters that generate local magnetism where none ...

Study: Observing growth of metallic crystals inside liquid metal solvents. Gallium in a petri dish. Image Credit: Philip Ritchie/The University of Sydney Researchers at the University of Sydney have ...