Fiber-Based Hybrid Nanogeeerators for/as Self-Powered Systems In Biological Liquid

Caofeng Pan; Zetang Li; Wenxi Guo

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Fiber-Based Hybrid Nanogeeerators for/as Self-Powered Systems In Biological Liquid

机译：用于/作为生物液体中自供电系统的基于纤维的混合纳米发电机

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A goal of nanotechnology is to create nanosystems that are intelligent, multifunctional, super-small, extremely sensitive, and low power consuming. The search for sustainable power sources for driving such nanosystems is an emerging field in today's energy research, and harvesting energy from multiple sources available in the environment is highly desirable for creating self-powered nanosystems. For implanted nano-devices, such as a glucose sensor used to monitoring diabetes, it is rather challenging to power them since the solar energy is not available inside the body and thermal energy cannot be used because there is no temperature gradient.

机译：纳米技术的目标是创建智能，多功能，超小型，极其灵敏且低功耗的纳米系统。寻找用于驱动此类纳米系统的可持续电源已成为当今能源研究的新兴领域，从环境中获得的多种能源中收集能量对于创建自供电纳米系统非常必要。对于植入的纳米设备，例如用于监测糖尿病的葡萄糖传感器，为它们供电非常具有挑战性，因为在体内无法获得太阳能，并且由于没有温度梯度，因此无法使用热能。

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《Angewandte Chemie》 |2011年第47期|共5页
作者
Caofeng Pan; Zetang Li; Wenxi Guo;
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正文语种 eng
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biofuel cells; hybrid nanogenerator; personalized electronics; self-powered nanodevice;

机译：生物燃料电池混合纳米发电机个性化电子自供电纳米装置;

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1. Fiber-Based Hybrid Nanogeeerators for/as Self-Powered Systems In Biological Liquid [J] . Caofeng Pan, Zetang Li, Wenxi Guo Angewandte Chemie . 2011,第47期

机译：用于/作为生物液体中自供电系统的基于纤维的混合纳米发电机
2. 3D Fiber-Based Hybrid Nanogenerator for Energy Harvesting and as a Self-Powered Pressure Sensor [J] . Xiuhan Li, Zong-Hong Lin, Gang Cheng, ACS nano . 2014,第10期

机译：基于3D光纤的混合纳米发电机，用于能量收集和作为自供电压力传感器
3. Fiber-based all-solid-state flexible supercapacitors for self-powered systems [J] . Xiao X., Li T., Yang P., ACS nano . 2012,第10期

机译：用于自供电系统的基于光纤的全固态柔性超级电容器
4. Is Liquid Water a Hot Quantum Fluid? Anomalies of Thin Liquid Film of Water and Biological Systems [C] . Byoung Jip Yoon International Conference on Flow Dynamics . 2006

机译：液态水是热量子液吗？水和生物系统薄液膜的异常
5. Molecular dynamics simulations of nanoscale interfaces: From simple liquids to biological systems. [D] . Chiu, Chi-cheng. 2010

机译：纳米级界面的分子动力学模拟：从简单的液体到生物系统。
6. A Self-Powered Wireless Water Quality Sensing Network Enabling Smart Monitoring of Biological and Chemical Stability in Supply Systems [O] . Marco Carminati, Andrea Turolla, Lorenzo Mezzera, 2020

机译：自供电的无线水质传感网络可对供水系统中的生物和化学稳定性进行智能监控
7. Concurrent Harvesting of Ambient Energy by Hybrid Nanogenerators for Wearable Self-Powered Systems and Active Remote Sensing [O] . -1

机译：杂交纳米液体能量的同时收集可穿戴自动系统和主动遥感的杂交纳米能量
8. Electron Reactions in Model Liquids and Biological Systems [R] . Bakale, G., Gregg, E. C. 1982

机译：模型液体和生物系统中的电子反应

Fiber-Based Hybrid Nanogeeerators for/as Self-Powered Systems In Biological Liquid

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