PVDF–PZT nanocomposite film based self-charging power cell

Yan Zhang; Yujing Zhang; Xinyu Xue; Chunxiao Cui; Bin He; Yuxin Nie; Ping Deng; Zhong Lin Wang

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PVDF–PZT nanocomposite film based self-charging power cell

机译：PVDF–PZT纳米复合薄膜自充电式动力电池

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A novel PVDF–PZT nanocomposite film has been proposed and used as a piezoseparator in self-charging power cells (SCPCs). The structure, composed of poly(vinylidene fluoride) (PVDF) and lead zirconate titanate (PZT), provides a high piezoelectric output, because PZT in this nanocomposite film can improve the piezopotential compared to the pure PVDF film. The SCPC based on this nanocomposite film can be efficiently charged up by the mechanical deformation in the absence of an external power source. The charge capacity of the PVDF–PZT nanocomposite film based SCPC in 240 s is ~0.010 μA h, higher than that of a pure PVDF film based SCPC (~0.004 μA h). This is the first demonstration of using PVDF–PZT nanocomposite film as a piezoseparator for SCPC, and is an important step for the practical applications of SCPC for harvesting and storing mechanical energy.

机译：已经提出了一种新颖的PVDF-PZT纳米复合膜，并用作自充电电池（SCPC）的压电分离器。由聚偏二氟乙烯（PVDF）和锆酸钛酸铅（PZT）组成的结构提供了高压电输出，因为与纯PVDF膜相比，这种纳米复合膜中的PZT可以改善压电势。在没有外部电源的情况下，可以通过机械变形有效地充电基于该纳米复合膜的SCPC。基于PVDF-PZT纳米复合膜的SCPC在240 s内的充电容量约为0.010μAh，高于纯基于PVDF膜的SCPC（约0.004μAh）。这是使用PVDF-PZT纳米复合膜作为SCPC的压电分离器的首次演示，也是SCPC实际应用中收获和存储机械能的重要一步。

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《Nanotechnology》 |2014年第10期|共7页
作者
Yan Zhang; Yujing Zhang; Xinyu Xue; Chunxiao Cui; Bin He; Yuxin Nie; Ping Deng; Zhong Lin Wang;
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正文语种 eng
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关键词
nanocomposite; piezoseparator; piezopotential;

机译：纳米复合材料;压电分离器;压电势;

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1. PVDF–PZT nanocomposite film based self-charging power cell [J] . Yan Zhang, Yujing Zhang, Xinyu Xue, Nanotechnology . 2014,第10期

机译：PVDF–PZT纳米复合薄膜自充电式动力电池
2. Electroactive and High Dielectric Folic Acid/PVDF Composite Film Rooted Simplistic Organic Photovoltaic Self-Charging Energy Storage Cell with Superior Energy Density and Storage Capability [J] . Roy Swagata, Thakur Pradip, Hoque Nur Amin, ACS applied materials & interfaces . 2017,第28期

机译：电活性和高介电叶酸/ PVDF复合膜根本简化有机光伏自充电储能电池，具有卓越的能量密度和储存能力
3. Highly porous piezoelectric PVDF membrane as effective lithium ion transfer channels for enhanced self-charging power cell [J] . Kim Young-Soo, Xie Yannan, Wen Xiaonan, Nano Energy . 2015,第Null期

机译：高度多孔的压电PVDF膜作为有效的锂离子传递通道，用于增强自充电式动力电池
4. Fabrication and characterization of PZT-PAni/PVDF based nanocomposite [C] . Oliveira C.A., Longo E., Zaghete M.A., 2013 IEEE International Symposium on the Applications of Ferroelectric and Workshop on the Piezoresponse Force Microscopy . 2013

机译：基于PZT-PAni / PVDF的纳米复合材料的制备与表征
5. Advanced polymer fibers/films based on synthetic nanocomposites and regenerated cellulose. [D] . Chen, Xuming. 2006

机译：基于合成纳米复合材料和再生纤维素的高级聚合物纤维/薄膜。
6. Differentiation Capacity of Monocyte-Derived Multipotential Cells on Nanocomposite Poly(e-caprolactone)-Based Thin Films [O] . Iro Koliakou, Eleni Gounari, Maria Nerantzaki, 2019

机译：纳米复合聚己内酯基薄膜上单核细胞衍生多能细胞的分化能力
7. Highly porous piezoelectric PVDF membrane as effective lithium ion transfer channels for enhanced self-charging power cell [O] . Kim, Young-Soo, Xie, Yannan, Wen, Xiaonan, 2015

机译：高度多孔的压电PVDF膜作为有效的锂离子传输通道，用于增强自充电式动力电池
8. Large Optoelectronic Enhancement of Light-Harvesting Polymers by Chain Confinement and Charge Percolation for LEDs and Photocells Based on Ultrathin Films and CNT Nanocomposites [R] . Yang, A. C. 2010

机译：基于超薄膜和CNT纳米复合材料的LED和光电池链式限制和电荷渗透的光收集聚合物的大型光电增强

PVDF–PZT nanocomposite film based self-charging power cell

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