Reversible hydrogen storage in Mg(BH4)2/carbon nanocomposites

Yigang Yan; Yuen S. Au; Daniel Rentsch

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Reversible hydrogen storage in Mg(BH4)2/carbon nanocomposites

机译：Mg（BH4）2 /碳纳米复合材料中的可逆储氢

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Mg(BH4)2 exhibits a high hydrogen content of 14.9 wt% and thermodynamic stability in the overall decomposition reaction that corresponds to hydrogen desorption at around room temperature. However, the potential applications in hydrogen storage are restricted by high kinetic barriers. In this study, we show the synthesis of Mg(BH4)2/carbon nanocomposites by ball milling of MgHa nanoparticles supported on carbon aerogel in a B2H6/H2 atmosphere. The nanocomposite exhibits a lower kinetic barrier as compared to bulk Mg(BH4)2. The temperature for major hydrogen desorption is decreased to 160 °C. Furthermore, re-formation of Mg(BH4)2 after full dehydrogenation is achieved under mild conditions (200 °C and 80 to 150 bar H2) in the nanocomposite. This work demonstrates nanoengineering as an effective approach to realize the reversible hydrogen storage of Mg(BH4)2 under mild conditions.

机译：Mg（BH4）2的氢含量高达14.9 wt％，并且在整个分解反应中具有热力学稳定性，这与室温附近的氢解吸相对应。然而，在氢存储中的潜在应用受到高动力学势垒的限制。在这项研究中，我们显示了在B2H6 / H2气氛中通过球磨负载在碳气凝胶上的MgHa纳米颗粒来合成Mg（BH4）2 /碳纳米复合材料。与块状Mg（BH4）2相比，纳米复合材料显示出较低的动力学势垒。氢气的主要脱附温度降至160°C。此外，在温和的条件下（200°C和80至150 bar H2）在纳米复合材料中实现了完全脱氢后Mg（BH4）2的重整。这项工作表明纳米工程是在温和条件下实现Mg（BH4）2可逆储氢的有效方法。

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《Journal of Materials Chemistry, A. Materials for energy and sustainability》 |2013年第37期|共7页
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Yigang Yan; Yuen S. Au; Daniel Rentsch;
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中图分类工程材料学;
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1. Reversible hydrogen storage in Mg(BH4)2/carbon nanocomposites [J] . Yigang Yan, Yuen S. Au, Daniel Rentsch Journal of Materials Chemistry, A. Materials for energy and sustainability . 2013,第37期

机译：Mg（BH4）2 /碳纳米复合材料中的可逆储氢
2. On the Reversibility of Hydrogen-Storage Reactions in Ca(BH4)2: Characterization via Experiment and Theory [J] . Lin-Lin Wang, Dennis D. Graham, Ian M. Robertson The journal of physical chemistry, C. Nanomaterials and interfaces . 2009,第46期

机译：Ca（BH4）2中储氢反应的可逆性：通过实验和理论表征
3. Single Walled Carbon IManotube-Metal Oxide Nanocomposites for Reversible and Reproducible Storage of Hydrogen [J] . D. Silambarasan, V. J. Surya, V. Vasu ACS applied materials & interfaces . 2013,第21期

机译：单壁碳IManotube-金属氧化物纳米复合材料，用于可逆和可再生的氢存储
4. On the reversible hydrogen storage in Mg(BH4)2 under moderate conditions [C] . Yigang Yan, Daniel Rentsch, Arndt Remhof International Symposium on Clusters and Nanomaterials . 2016

机译：在中等条件下Mg（BH4）2中可逆氢气储存
5. Design and reversible hydrogen storage capacity determination of unique nanoarrays of titanium dioxide and carbon nanotubes. [D] . Mishra, Amrita. 2009

机译：独特的二氧化钛和碳纳米管纳米阵列的设计和可逆储氢容量测定。
6. Amorphous-Carbon-Supported Ultrasmall TiB2 Nanoparticles With High Catalytic Activity for Reversible Hydrogen Storage in NaAlH4 [O] . Xin Zhang, Xuelian Zhang, Zhuanghe Ren, 2020

机译：具有高催化活性的无定形碳负载超细TiB2纳米颗粒可逆地在NaAlH4中储氢
7. Reversible hydrogen storage in Mg(BH4)2/carbon nanocomposites [O] . Yan, Y., Au, Y.S., Rentsch, D., 2013

机译：mg（BH4）2 /碳纳米复合材料中的可逆储氢

Reversible hydrogen storage in Mg(BH4)2/carbon nanocomposites

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