The team grew the compound semiconductor nanocrystals in solvent and monitored their development in real time using computer simulations and powerful microscope technology
The team grew the compound semiconductor nanocrystals in solvent and monitored their development in real time using computer simulations and powerful microscope technology - A new method of controlling the shape of tiny particles about one tenth of the width of human hair could make the technology that powers our daily lives more stable and more efficient, scientists claim. The process, which transforms the structure of microscopic semiconductor materials known as quantum dots, provides industry with opportunities to optimise optoelectronics, energy harvesting, photonics, and biomedical imaging technologies, according to the Cardiff University-led team. Their study, funded by the Engineering and Physical Science Research Council (EPSRC) and published in Nano Letters , used a process called nanofaceting - the formation of small, flat surfaces on nanoparticles - to manipulate the quantum dots into a variety of shapes called nanocrystals. From cubes and olive-like structures to complex truncated octahedra, the international team of researchers say these nanocrystals have unique optical and electronic properties, which can be used in different types of technology. Dr Bo Hou, a Senior Lecturer at Cardiff University's School of Physics and Astronomy who led the study, said: "Quantum dots have the potential to revolutionise a number of industries because of the theoretically limitless efficiencies they offer.
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