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Multiphysics modeling of graphene-based biohybrid photoelectrochemical cells: An avenue to highly efficient and sustainable ultra-thin batteries

机译：基于石墨烯的生物混合光电化学电池的多物理场建模：高效，可持续的超薄电池的途径

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Graphene has been the focus of intensive research over the past few years due to its enormous potential in enabling a number of important applications in nanoelectronics and biomedicine. We propose that graphene can be considered as an ideal platform for the development of a new generation of ultra-thin batteries, capable of powering compact and portable biomedical devices that are intended to function autonomously. Here we explore the multiphysics modeling of a photoresponsive bioelectrode formed by the interface of graphene and PSI, which is suitable for sustainable electricity generation.

机译：由于石墨烯在纳米电子和生物医学领域的许多重要应用中具有巨大的潜力，因此在过去几年中一直是密集研究的重点。我们建议将石墨烯视为开发新一代超薄电池的理想平台，该超薄电池能够为旨在自主运行的紧凑型便携式生物医学设备供电。在这里，我们探索由石墨烯和PSI界面形成的光敏生物电极的多物理场建模，该电极适用于可持续发电。

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来源
《2013 Pan American Health Care Exchanges Conference》|2013年|1|共1页
会议地点 Medellin(CO)
作者
Guzman Maria F.; Gonzalez Andres; Cruz Juan C.;
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作者单位

GIBIC research group, Bioengineering Program, Universidad de Antioquia, Medell#x00ED;

n, Colombiac;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Biological materials; Electrochemical devices; Modeling; Photoelectricity; Thin film devices;

机译：生物材料;电化学装置;建模;光电;薄膜装置;;

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Multiphysics modeling of graphene-based biohybrid photoelectrochemical cells: An avenue to highly efficient and sustainable ultra-thin batteries

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