MC10 and PCH team up to make next generation of wearables.
MC10, Inc., the healthcare technology company specializing in stretchable body-worn computing systems, and PCH, which designs custom product solutions for startups and Fortune 500 companies, have entered into an exclusive partnership to commercialize MC10’s Wearable Interactive Stamp Platform (WiSP™).
The partnership will allow brands to develop a variety of consumer applications for the platform, which is a skin-worn, ultra-thin, stretchable and disposable stamp.
“We are excited to partner with PCH to expand the reach of MC10’s body-worn electronics globally, within and beyond our core healthcare market. PCH’s experience working with leading consumer brands, and their ability to commercialize the technology, will accelerate development of new applications within a variety of industries for skin-worn wearables.”Scott Pomerantz, President and Chief Executive Officer, MC10
When paired with a smartphone, tablet, or near field communication (NFC) reader, the WiSP platform enables a variety of consumer applications, such as cashless payments, hotel room access, event registration, interactive experiences at amusement parks, sporting and music events and VIP experiences.
The WiSP platform can also be used in clinical environments to transmit important patient information and streamline procedure flow.
PCH will work with third-party brands to customize the technology and develop new consumer applications. The smart stamp was first commercialized in conjunction with L’Oréal as the world’s first stretchable electronic designed to measure individual UV exposure. L’Oréal will retain exclusivity for applications of this technology in the beauty domain.
The stamp leverages NFC technology to enable a variety of interactions between brand and wearer. By combining cloud analytics with the WiSP platform, brands can deepen their understanding of consumer behavior.
To maintain the security of the stored information, the breathable, waterproof stamp is designed to tear and become unreadable upon removal.