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Holographic Imaging Technology – Application of Antimony Telluride
Researchers had explored previously how to reduce holographic imaging so that it is compatible with private devices. The traditional computer-generated Holograms are too large for most electronic devices. The size limit is being overcome by ultra-thin new holograms. On silicon wafers, the researchers created antimony leturide thin film 25 nanometers thick. Because of the low surface refractive Index and high internal refractive, optical resonators are possible and can even be improved to allow 3D holographic imagery. Laser etching is used to create the image from the antimony-telluride film. The researchers were able to make a 3-mm-long square hologram using these methods. This is a significant step forward.
Antimony Telluride Application in Thermoelectricity Generation
Know body temperature charging. The Zebek effect is the magic ingredient in the magical method. This circuit, typically composed of antimony telluride and bismuth thermoelectric substances, produces a thermoelectric energy if both metals are at different temperatures. A free-moving electron may flow through the electromotive force driven by potential energie, creating current and then generating electricity. It is useful not only for charging large gadgets, but for many other uses. You cannot underestimate the potential benefits of charging pacemakers, nanobots or other electronic devices using this technology.
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