可穿戴计算机
材料科学
CMOS芯片
生物传感器
光电子学
数码产品
柔性电子器件
作者
Jihun Park,Joohee Kim,So Yun Kim,Woon Hyung Cheong,Jiuk Jang,Young Geun Park,Kyungmin Na,Yun-Tae Kim,Jun Hyuk Heo,Chang Young Lee,Jung Heon Lee,Franklin Bien,Jang Ung Park
出处
期刊:Science Advances
[American Association for the Advancement of Science (AAAS)]
日期:2018-01-01
卷期号:4 (1)
被引量:278
标识
DOI:10.1126/sciadv.aap9841
摘要
Recent advances in wearable electronics combined with wireless communications are essential to the realization of medical applications through health monitoring technologies. For example, a smart contact lens, which is capable of monitoring the physiological information of the eye and tear fluid, could provide real-time, noninvasive medical diagnostics. However, previous reports concerning the smart contact lens have indicated that opaque and brittle components have been used to enable the operation of the electronic device, and this could block the user's vision and potentially damage the eye. In addition, the use of expensive and bulky equipment to measure signals from the contact lens sensors could interfere with the user's external activities. Thus, we report an unconventional approach for the fabrication of a soft, smart contact lens in which glucose sensors, wireless power transfer circuits, and display pixels to visualize sensing signals in real time are fully integrated using transparent and stretchable nanostructures. The integration of this display into the smart lens eliminates the need for additional, bulky measurement equipment. This soft, smart contact lens can be transparent, providing a clear view by matching the refractive indices of its locally patterned areas. The resulting soft, smart contact lens provides real-time, wireless operation, and there are in vivo tests to monitor the glucose concentration in tears (suitable for determining the fasting glucose level in the tears of diabetic patients) and, simultaneously, to provide sensing results through the contact lens display.
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