According to the Daily Science Network, engineers at the University of Wisconsin-Madison recently developed the world's fastest-running extended wearable integrated circuit that is expected to drive the development of high-speed wireless networks with greater interconnectivity throughout the Internet of Things. Relevant research results published in the recently published "Advanced Functional Materials" magazine.
The main reason for the power of this expandable integrated circuit is its unique structure. Inspired by twisted-pair telephone cables, it consists of two ultra slimline transmission lines interleaved with a repeating S-shaped curve that twists like a 3D maze and allows the transmission line to stretch without compromising performance Not subject to external interference, but also to limit the electromagnetic waves flowing through them, almost completely eliminate the current loss.
Currently, the research team developed an extensible integrated circuit capable of operating at radio frequencies above 40 GHz. Unlike other stretchable transmission lines up to 64 mm wide, this integrated circuit is only 0.25 mm thick and "Petite Slim" makes it well-suited for epidermal electronics or other applications. Over the past decade, the research team has been developing such transistor active devices, the latest research combines high-frequency and flexible electronic devices in the field of related technologies.
Ma Zhenqiang, a professor of electrical and computer engineering at the school responsible for the study, said: "We've found a way to integrate high-frequency transistors into a wireless-enabled circuit that is expected to find its way into many applications."
In recent years, lightweight, convenient and versatile wearable electronic devices, "You sing it to my debut," continue to flow into the consumer market, from monitoring vital signs to charging other electronic devices and even purifying the air, almost all wireless networking. The researchers said the latest circuit is a good platform for manufacturers who want to do everything possible to expand the reach and potential of wearable electronics and is expected to be used in wearable electronics that adheres to the skin. With fast wireless Internet access, this circuit also enables healthcare professionals to remotely monitor patients or use it in a new generation of wireless broadband 5G devices.
Pearlescent pigments are a diverse range of products that are composed of multiple layers of metal oxides applied to various substrates such as natural and synthetic mica, as well as borosilicates. By manipulating the composition of these thin metal oxide layers, a variety of captivating pearlescent effects can be achieved. When compared to other types of pigments, pearlescent pigments offer an unmatched ability to produce a unique, soft pearl-like luster. These pigments possess a distinctive surface structure, a high refractive index, and excellent transparency, allowing them to create the same stunning effect as natural pearl luster when used in transparent mediums.
Our Pearlescent Pigments category includes the following products:
We pride ourselves on delivering reliable and high-quality pigments to meet the diverse needs of our customers. Contact us today to learn more about our Pearlescent Pigments category and how we can help you enhance your products.
Pearlescent Pigments,Multicolor Pearlescent Pigment,Pigment Powder,Pigments Powder
Kolortek Co., Ltd. , http://www.micapowders.com