Sensorized tissue analogues enabled by a 3D-printed conductive organogel  被引量:1

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作  者:Michael R.Crump Sophia L.Bidinger Felippe J.Pavinatto Alex T.Gong Robert M.Sweet Devin MacKenzie 

机构地区:[1]Department of Materials Science&Engineering,University of Washington,Seattle,WA,USA [2]Center for Research in Education and Simulation Technologies,University of Washington,Seattle,WA,USA [3]Department of Surgery,University of Washington,Seattle,WA,USA [4]Department of Mechanical Engineering,University of Washington,Seattle,WA,USA

出  处:《npj Flexible Electronics》2021年第1期51-58,共8页npj-柔性电子(英文)

摘  要:State-of-the-art tissue analogues used in high-fidelity,hands-on medical simulation modules can deliver lifelike appearance and feel but lack the capability to provide quantified,real-time assessment of practitioner performance.The monolithic fabrication of hybrid printed/textile piezoresistive strain sensors in a realistic Y/V plasty suture training pad is demonstrated.A class of 3D-printable organogels comprised of inexpensive and nonhazardous feedstocks is used as the sensing medium,and conductive composite threads are used as the electrodes.These organogels are comprised of a glycol-based deep-eutectic solvent(DES)serving as the ionic conductor and 3-trimethoxysilylmethacrylate-capped fumed silica particles serving as the gelating agent.Rheology measurements reveal the influence of fumed silica particle capping group on the mixture rheology.Freestanding strain sensors demonstrate a maximum strain amplitude of 300%,negligible signal drift,a monotonic sensor response,a low degree of hysteresis,and excellent cyclic stability.The increased contact resistance of the conductive thread electrodes used in place of wire electrodes do not make a significant impact on sensor performance.This work showcases the potential of these organogels utilized in sensorized tissue analogues and freestanding strain sensors for widespread applications in medical simulation and education.

关 键 词:STABILITY ANALOGUES CONDUCTIVE 

分 类 号:O62[理学—有机化学]

 

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