Materials and Fractal Designs for 3D Multifunctional Integumentary Membranes with Capabilities in Cardiac Electrotherapy Article Swipe
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Lizhi Xu
,
Sarah R. Gutbrod
,
Yinji Ma
,
Artin Petrossians
,
Yuhao Liu
,
R. Chad Webb
,
Jonathan A. Fan
,
Zijian Yang
,
Renxiao Xu
,
John J. Whalen
,
James D. Weiland
,
Yonggang Huang
,
Igor R. Efimov
,
John A. Rogers
·
YOU?
·
· 2015
· Open Access
·
· DOI: https://doi.org/10.1002/adma.201405017
· OA: W2062188950
YOU?
·
· 2015
· Open Access
·
· DOI: https://doi.org/10.1002/adma.201405017
· OA: W2062188950
Advanced materials and fractal design concepts form the basis of a 3D conformal electronic platform with unique capabilities in cardiac electrotherapies. Fractal geometries, advanced electrode materials, and thin, elastomeric membranes yield a class of device capable of integration with the entire 3D surface of the heart, with unique operational capabilities in low power defibrillation. Co-integrated collections of sensors allow simultaneous monitoring of physiological responses. Animal experiments on Langendorff-perfused rabbit hearts demonstrate the key features of these systems.
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