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    InícioNotíciasCheaper elementes can replace rare ones in future eletronics

    Cheaper elementes can replace rare ones in future eletronics

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    The new compounds can also be “tuned” to efficiently harvest electrical energy from the different wavelengths of light in the solar spectrum and to produce the range of colors we like to use in lighting.

    Today, optoelectronic materials in thin-film solar panels, the cell phone in your hand, and the LED bulb lighting your home are all made using some of the rarest, most expensive elements found on the planet.

    “In fact, we’re in danger of running out of some of those elements because they’re not easy to recycle and they’re in limited supply,” says physicist Roy Clarke of the University of Michigan. “It’s not viable for technology to rely on something that’s likely to run out on a scale of 10 to 20 years.”

    COST CUTTING FOR OPTOELECTRONIC MATERIALS

    Only specific kinds of compounds—a combination of two or more elements—can be used to make electronic devices that efficiently emit light or gather electricity. If you recall in your grade school chemistry classes, each column on the periodic table is considered a group of elements.

    For example, group III includes elements such as indium and gallium—both relatively scarce elements that nevertheless currently underpin applications combining light and electricity. The problem is, these compounds often involve elements that are only found in a few locations around the world.

    The research team found a way to combine two common elements from columns bracketing group III to make a novel compound composed of elements from groups II, IV, and V. This II-IV-V compound can replace the rare elements typically found in III-V optoelectronic materials with similar properties—except far more abundant and less expensive.

    The new compound of zinc, tin, and nitrogen can harvest both solar energy and light, so it would work in thin-film solar panels as well as in LED light bulbs, cell phone screens, and television displays.

    ADJUSTING THE LIGHTS

    Using magnesium instead of zinc further extends the reach of the materials into blue and ultraviolet light. Both compounds are also “tunable”—that is, when the researchers grow crystals of either compound, they can order the elements in such a way that the material is sensitive to specific wavelengths of light.

    This tunability is desired because it allows researchers to tweak the material to respond to the widest range of wavelengths of light. This is especially important for light-emitting diodes so that device designers can select the color of light produced.

    “When you’re lighting a home or an office, you want to be able to adjust the warmth of the light, oftentimes mimicking natural sunlight,” Clarke says. “These new II-IV-V compounds would allow us to do that.”

    Lead author Robert Makin, who just earned his PhD from Western Michigan University, used a technique called molecular beam epitaxy (MBE) to produce the desired compounds under the correct conditions to make films with a carefully controlled degree of atomic ordering.

    MBE lays down each atomic layer of the compound in a systematic fashion, so the researchers could study the thin layer, or film, structure as they were growing it. The next phase of the research, leading into construction of various device designs, calls for detailed studies of this material family’s electronic response and testing of various nanoscale architectures that exploit their versatility.

    The research appears in Physical Review Letters. The research team also includes additional members from the Université de Lorraine in France, the University of Canterbury in New Zealand, and Western Michigan University.

    Fonte: Futurity.

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