Preparation of graphene/W_(18)O_(49) nanorod composites and their application in electrochromic performance

Li Yuting; Yan Luting; Zhang Ji; Xu Mingyuan; Zhu Yanyun

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Preparation of graphene/W_(18)O_(49) nanorod composites and their application in electrochromic performance

机译：石墨烯/ W_（18）O_（49）纳米棒复合材料的制备及其在电致变色性能中的应用

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Reduced graphene oxide/W18O49 nanorod (rGO-WNd) composites are prepared through the high-temperature thermal reduction of ammonium tungstate and graphene oxide (GO). In the as-prepared rGO-WNd, W18O49 nanorods (WNd) exhibit better crystallinity and more stable properties than conventional W18O49 nanowires obtained using the solvothermal method. X-ray diffraction and Raman spectra confirm the coexistence of WNd and reduced GO (rGO). The cycle stability, capacitance, and electrochromic properties of the rGO-WNd composite film exhibit significant improvement compared with those of the pure WNd film. The rGO-WNd composite film achieves the best coloration efficiency at 535 nm. Studies have shown that the diffusion of ions is promoted and the charge transfer is accelerated after adding rGO. These conditions accelerate response time.

机译：通过高温热还原钨酸铵和氧化石墨烯（GO），制备了还原的氧化石墨烯/ W18O49纳米棒（rGO-WNd）复合材料。在制备的rGO-WNd中，W18O49纳米棒（WNd）比使用溶剂热法获得的常规W18O49纳米线具有更好的结晶度和更稳定的性能。 X射线衍射和拉曼光谱证实了WNd和还原GO（rGO）的共存。与纯WNd膜相比，rGO-WNd复合膜的循环稳定性，电容和电致变色性能显示出显着改善。 rGO-WNd复合膜在535 nm处达到最佳的着色效率。研究表明，加入rGO后，离子的扩散得到促进，电荷转移加速。这些条件会加快响应时间。

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来源
《Journal of materials science》 |2019年第22期|20181-20188|共8页
作者
Li Yuting; Yan Luting; Zhang Ji; Xu Mingyuan; Zhu Yanyun;
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Beijing Jiaotong Univ Sch Sci Beijing 100044 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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Preparation of graphene/W_(18)O_(49) nanorod composites and their application in electrochromic performance

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