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孙旭辉教授课题组在Nano Energy上发表论文
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发布时间:2017-09-06 点击:1057
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| 题目: | Multifunctional Power Unit by Hybridizing Contact-Separate Triboelectric Nanogenerator, Electromagnetic Generator and Solar Cell for Harvesting Blue Energy
| | 作者: | Huiyun Shao, Zhen Wen*, Ping Cheng, Na Sun, Qingqing Shen, Changjie Zhou, Mingfa Peng, Yanqin Yang, Xinkai Xie, Xuhui Sun*
| | 单位: | Institute of Functional Nano and Soft Materials (FUNSOM), Jiangsu Key Laboratory for Carbon-Based Functional Materials and Devices, and Collaborative Innovation Center of Suzhou Nano Science and Technology, Soochow University, Suzhou 215123, China
| | 摘要: | The complementary output of triboelectric nanogenerator (TENG) and electromagnetic generator (EMG) can be hybridized and maximized for harvesting blue energy in a broad frequency range. How to optimally design and construct the hybrid structure still remains a challenge. In this work, we proposed a multifunctional hybrid power unit for harvesting blue energy, which consists of contact-separate mode triboelectric nanogenerators (CSTENGs), freestanding sliding mode electromagnetic generators (FS-EMGs) and commercial water-proof silicon based solar cells (WS-SCs). When harvesting ocean wave kinetic energy, the bottom magnet in FS-EMG moves forth and back driven by the wave motion and makes the top magnet shake upward or downward, thus the two triboelectric layers of CS-TENG contact and separate constantly. The magnet pairs produce the noncontact attractive force that enables the fully enclosed packaging of the TENG part, protecting it from ambient environment. The TENGs effectively harvest low-frequency (< 0.5 Hz) motion and the EMGs enable to produce larger output at relatively high frequency, achieving the purpose of harvesting blue energy in a broad frequency range. In addition, considering the adequate illumination on the sea, solar cells are easily integrated to collect solar energy simultaneously. The hybrid power unit has been demonstrated to harvest energy as a practical power source to drive LEDs directly or charge commercial supercapacitors under all weather conditions. The hybrid unit can be easily driven owing to ingenious design and multifunctional outputs.
| | 影响因子: | 12.343
| | 分区情况: | 1区
| | 链接: | http://www.sciencedirect.com/science/article/pii/S2211285517304585
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责任编辑:向丹婷 |
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