A 2019 study published in the Journal of the Electrical Chemical Society used Tekscan pressure mapping sensors and software as a visual tool and means of data gathering over time to reveal hot spots at various pressure applications.

Ultra-thin piezoresistive sensors can be used in both R&D and as embedded components to develop safer, longer-lasting lithium-ion battery technologies.

Could force-sensitive training devices help develop higher standards for future medical professionals?

Tekscan's VP of Sensors Mark Lowe shares his input on the future of orthopedic testing and analysis technologies, and the role tactile sensing technologies may play.

This article explores how FSR technology (like FlexiForce touch sensors) can become key embedded components to enable innovative and exciting medical device IoT concepts.

Tekscan VP of Sensors Mark Lowe explains innovative concepts for piezoresistive touch sensors -- like FlexiForce™ sensors -- to advanced physical therapy treatment processes.

This article showcases how tactile sensing technology used in R&D or clinical research settings can essentially "Map the Path" to an innovative, first-of-its-kind medical device.

Tekscan's CTO Rob Podoloff provides key advice for companies to save on the embedded force sensor investment.

No matter the application, engineers often wonder about the best method for measuring force feedback. This article breaks down how common embedded force-sensing technologies compare. Learn how force-sensitive resistors (like FlexiForce touch sensors) compare to load cells.

With more and more patients electing to use home-use therapies for their medical treatment, ultra-thin force-sensitive resistors can capture important force feedback to improve the usability and effectiveness of small, smart medical devices.