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Flexible electronics have tremendous potential for a wide range of applications, including, but not limited to, health monitors, wearables and consumer electronics.The Initiative on Flexible Electronics Translational Research, or FlexTR, is established to support flexible electronics-related research and technology innovations at Stanford University. FlexTR is supported by the Beijing Institute of Collaborative Innovation (BICI) and directed by Professor Zhenan Bao, Department of Chemical Engineering at Stanford University.

News & Events

June 1, 2018 Sweat sensing project is funded and gets started! Wearable, low-cost, non-invasive health monitoring devices have a wide variety of applications as they can provide information pertinent to monitoring basic physical condition (of interest to athletic and military industries), disease marker monitoring (important for patients with chronic illness, health workers and doctors, especially those working in remote areas without ready access to advance health facilities), fundamental research (where large populations of patients can be studied due to increased compliance for non-invasive wearables; access to broader audiences such as those in rural communities will also be possible). The Stanford team will develop and demonstrate a wearable sensing platform for quantitative analysis of (bio)chemical species in sweat.

March 15, 2018 The robotic skin project is funded and gets started! Tactile sensing is indispensable to humans in everyday activities such as manipulation of objects, exploration of materials and surface properties, and response to touch or impact. However, even the most sophisticated robots are not capable of mimicking the basic integrated functions of various mechanoreceptors that enable human tactile sensing. This condition has been long-standing as a barrier hampering the development of advanced robots that can safely interact with humans in everyday situations. The ultimate task is to create a stretchable electronic skin with various sensors integrated to enable human-skin like tactile sensing.
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