新澳门六合彩内幕信息

新澳门六合彩内幕信息

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新澳门六合彩内幕信息research assistant Terry Weng observes the ultra-fast manufacturing technology.

新澳门六合彩内幕信息chemical engineer Terry Weng observes the ultra-fast manufacturing technology.

新澳门六合彩内幕信息engineers invent ultra-fast manufacturing technology

A team of engineers at the 新澳门六合彩内幕信息 has invented new technology that could forever change the manufacturing of wearable, electronic sensors. They鈥檝e figured out a way to speed up production without having to use polymer binders 鈥 the industry standard in printing flexible sensors, which are often used to monitor vital signs in health care settings.

Corona-Enabled Electrostatic Printing

Corona-Enabled Electrostatic Printing enables sensors to be printed within sub-seconds.

Their technology, featured on the cover of the journal ACS Applied Materials & Interfaces, prints electronic skin, or 鈥渆-skin,鈥 by using corona discharge to create a strong electric field between binder-free functional powders, such as graphene, and flexible, non-conductive surfaces, such as medical tape. The electrostatic force used in Corona-Enabled Electrostatic Printing enables a multitude of e-skin sensors to be printed within sub-seconds, compared to the 20 minutes it takes with polymer binders, and doesn鈥檛 require heat. E-skin is micrometer-thin, pliable technology that can be used to measure things such as strain, temperature and sound.

Ying Zhong, assistant professor of mechanical engineering at USF, and her collaborator, Long Wang at California Polytechnic State University, found that the printing technique has broad applications, such as in health monitoring, prosthetics and robotics. Unlike with polymer binders, there aren鈥檛 sizing limitations, making the technique a strong candidate for the roll-to-roll manufacturing of large flexible sensors, which can greatly reduce production costs.

Sarah Zhong

Ying Zhong, assistant professor of mechanical engineering

鈥淎s a new, advanced manufacturing strategy, Corona-Enabled Electrostatic Printing will potentially transform the cost structure for large-area and high-performance electronics and enable versatile applications of flexible, functional systems,鈥 Zhong said. 鈥淭he technique can help contribute to maintaining the U.S.鈥檚 leadership in advanced manufacturing.鈥

Zhong recently received a $308,928 grant from the National Science Foundation to advance her research, proving the patent-pending ultra-fast manufacturing technique can be used to print materials beyond multifunctional e-skin. 

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