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首页> 外文期刊>ACS applied materials & interfaces >Bifunctional, Moth-Eye-Like Nanostructured Black Titania Nanocomposites for Solar-Driven Clean Water Generation
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Bifunctional, Moth-Eye-Like Nanostructured Black Titania Nanocomposites for Solar-Driven Clean Water Generation

机译:双官能,蛾眼镜纳米结构黑色二氧化钛纳米复合材料用于太阳能驱动的清洁水

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摘要

Solar steam generation and photocatalytic degradation have been regarded as the most promising techniques to address clean water scarcity issues. Although enormous efforts have been devoted to exploring high-efficiency clean water generation, many challenges still remain in terms of single decontamination function, relatively low efficiency, and inability to practical application. Herein, we first report the bioinspired fabrication of black titania (BT) nanocomposites with moth-eye-like nanostructures on carbon cloth for solar-driven clean water generation through solar steam generation and photocatalytic degradation. The moth eye-like BT nanoarrays can largely prolong the effective propagation path of absorbing light and enhance the scattering of light, thereby exhibiting outstanding light absorption of 96% in the full spectrum. Such hierarchicalnanostructured BT nanocomposites not only impressively achieve solar steam efficiency of 94% under a simulated light of 1 kW m(-2) but also show the prominent performance of desalination and steam generation in real life condition. In addition, 96% of rhodamine B is degraded using BT nanocomposites as a photocatalyst in 100 min. The moth-eye-like bioinspired designing concept and bifunctional applications in this study may open up a new strategy for maximizing solar energy utilization and clean water generation.
机译:太阳能蒸汽发电和光催化降解被认为是解决清洁水资源稀缺问题的最有前途的技术。虽然初始努力探索高效清洁水,但仍然存在许多挑战,仍然是单一净化功能,效率相对较低,无法实际应用。在此,我们首先将Bioinspired的Bioinspired纳米复合材料与碳布上的蛾眼镜纳米结构进行了碳布,用于通过太阳能蒸汽产生和光催化降解发生太阳能驱动的清洁水。蛾眼睛的BT纳米载体可以很大程度上延长吸收光的有效传播路径,并增强光的散射,从而在全光谱中表现出96%的出色光吸收。这种层级的纳米结构BT纳米复合材料不仅令人印象深刻地在1kW M(-2)的模拟光下实现了94%的太阳能蒸汽效率,但也显示出现实生活条件下脱盐和蒸汽产生的显着性能。此外,使用Bt纳米复合材料在100分钟内作为光催化剂,96%的罗丹明B降解。本研究中的蛾眼镜的生物透露设计概念和双功能应用可能开辟了一种最大化太阳能利用和清洁水的新策略。

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  • 来源
    《ACS applied materials & interfaces》 |2018年第46期|共9页
  • 作者

    Liu Xinghang; Cheng Haiyan; Guo Zhenzhen; Zhan Qian; Qian Jingwen; Wang Xianbao;

  • 作者单位

    Hubei Univ Hubei Collaborat Innovat Ctr Adv Organ Chem Mat Minist Educ Sch Mat Sci &

    Engn Key Lab Green Preparat &

    Applicat Funct Mat Hubei Wuhan 430062 Hubei Peoples R China;

    Hubei Univ Hubei Collaborat Innovat Ctr Adv Organ Chem Mat Minist Educ Sch Mat Sci &

    Engn Key Lab Green Preparat &

    Applicat Funct Mat Hubei Wuhan 430062 Hubei Peoples R China;

    Hubei Univ Hubei Collaborat Innovat Ctr Adv Organ Chem Mat Minist Educ Sch Mat Sci &

    Engn Key Lab Green Preparat &

    Applicat Funct Mat Hubei Wuhan 430062 Hubei Peoples R China;

    Hubei Univ Hubei Collaborat Innovat Ctr Adv Organ Chem Mat Minist Educ Sch Mat Sci &

    Engn Key Lab Green Preparat &

    Applicat Funct Mat Hubei Wuhan 430062 Hubei Peoples R China;

    Hubei Univ Hubei Collaborat Innovat Ctr Adv Organ Chem Mat Minist Educ Sch Mat Sci &

    Engn Key Lab Green Preparat &

    Applicat Funct Mat Hubei Wuhan 430062 Hubei Peoples R China;

    Hubei Univ Hubei Collaborat Innovat Ctr Adv Organ Chem Mat Minist Educ Sch Mat Sci &

    Engn Key Lab Green Preparat &

    Applicat Funct Mat Hubei Wuhan 430062 Hubei Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 化学工业;
  • 关键词

    moth-eye-like; bifunctional; black titania; solar steam generation; photocatalytic degradation;

    机译:蛾眼睛;双功能;黑色二氧化钛;太阳能蒸汽发生;光催化降解;

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