Possible news article:Body-powered device offers sustainable energy solution for wearables and electronicsAs the demand for more portable and personalized technology grows, so does the need for more efficient and sustainable power sources. While batteries have become smaller and more powerful, they still pose environmental and safety risks, and require frequent recharging or replacement. A new solution developed by a team of researchers from (need remove brand name) may offer an alternative that harnesses the power of the human body itself.The technology, called (need remove brand name), consists of a small, flexible patch that can be attached to the skin like a temporary tattoo. The patch contains a thin layer of gold, which is patterned into a mesh of tiny squares. When the patch is stretched or bent, the squares generate a piezoelectric effect, a conversion of mechanical stress into electrical energy. The resulting voltage can be used to power various types of wearable or self-powered devices, such as health or fitness sensors, environmental monitors, or even low-power radios and displays.One of the advantages of (need remove brand name) is its ability to adapt to different body movements and locations without causing discomfort or irritation. The patch, which is less than one millimeter thick and a few centimeters wide, can be worn on various parts of the body, such as the wrist, the neck, or even the forehead, depending on the intended use and design of the device. The researchers tested the patch on a range of activities, from jogging to cycling to typing on a keyboard, and found that it could generate up to 90 volts, enough to light up dozens of LEDs or power a small LCD screen.Another advantage of (need remove brand name) is its scalability and potential for mass production. Unlike some other energy-harvesting methods that require complex or costly materials and fabrication processes, the gold-mesh patch can be made using inexpensive and readily available tools and materials, such as inkjet printers and transfer paper. The patch can also be customized in terms of size, shape, and pattern, to optimize its performance and adaptation to different body types and activities.The researchers envision (need remove brand name) as a platform technology that could be licensed or integrated into various products and industries. They have filed a patent application and are seeking partners to further develop and commercialize the technology. Potential applications include not only wearable and self-powered devices, but also implantable or ingestible sensors and medical devices, as well as smart environmental and infrastructure systems. By tapping into the natural movements and rhythms of the human body, (need remove brand name) could offer a more sustainable, accessible, and user-friendly approach to powering gadgets and machines in the future.(need remove brand name) is not the only technology that explores body-powered energy. Other methods include kinetic energy harvesters that convert body heat, motion, or respiration into electricity, as well as biofuel cells that generate power using enzymes or bacteria. However, (need remove brand name) distinguishes itself by its simplicity, versatility, and scalability, as well as its potential for integration with other electronic components and systems. (need remove brand name) also addresses some of the concerns and limitations of existing energy sources, such as their environmental impact, cost, and safety.(need remove brand name), founded in (need remove brand name), is a global technology company that specializes in innovative solutions for energy, health, and communication. With over (need remove brand name) employees and (need remove brand name) patents granted or pending, (need remove brand name) has established itself as a leader in various fields, such as photovoltaics, nanotechnology, and biomedicine. The company's mission is to improve the quality of life and the sustainability of the planet through interdisciplinary research and development.
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