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X-ray and Synchrotron FTIR Studies of Partially Decomposed Magnesium Borohydride

Author

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  • Rashmi Dahal

    (Department of Mathematics and Physics, University of Stavanger, P.O. Box 8600, NO-4036 Stavanger, Norway
    Current affiliation: Nuclear Material and Engineering (NuME) Group, Department of Applied Physics, Aalto University, Otakaari 1, 02150 Espoo, Finland.)

  • Jenny G. Vitillo

    (Department of Science and High Technology and INSTM, Università degli Studi dell’Insubria, Via Valleggio 9, I-22100 Como, Italy)

  • Anna C. Åsland

    (Department of Mathematics and Physics, University of Stavanger, P.O. Box 8600, NO-4036 Stavanger, Norway
    Current affiliation: Center for Quantum Spintronics, Department of Physics, Norwegian University of Science and Technology (NTNU), NO-7491 Trondheim, Norway.)

  • Christoph Frommen

    (Department for Hydrogen Technology, Institute for Energy Technology, P.O. Box 40, NO-2027 Kjeller, Norway)

  • Stefano Deledda

    (Department for Hydrogen Technology, Institute for Energy Technology, P.O. Box 40, NO-2027 Kjeller, Norway)

  • Olena Zavorotynska

    (Department of Mathematics and Physics, University of Stavanger, P.O. Box 8600, NO-4036 Stavanger, Norway)

Abstract

Magnesium borohydride (Mg(BH 4 ) 2 ) is an attractive compound for solid-state hydrogen storage due to its lucratively high hydrogen densities and theoretically low operational temperature. Hydrogen release from Mg(BH 4 ) 2 occurs through several steps. The reaction intermediates formed at these steps have been extensively studied for a decade. In this work, we apply spectroscopic methods that have rarely been used in such studies to provide alternative insights into the nature of the reaction intermediates. The commercially obtained sample was decomposed in argon flow during thermogravimetric analysis combined with differential scanning calorimetry (TGA-DSC) to differentiate between the H 2 -desorption reaction steps. The reaction products were analyzed by powder X-ray diffraction (PXRD), near edge soft X-ray absorption spectroscopy at boron K-edge (NEXAFS), and synchrotron infrared (IR) spectroscopy in mid- and far-IR ranges (SR-FTIR). Up to 12 wt% of H 2 desorption was observed in the gravimetric measurements. PXRD showed no crystalline decomposition products when heated at 260–280 °C, the formation of MgH 2 above 300 °C, and Mg above 320 °C. The qualitative analysis of the NEXAFS data showed the presence of boron in lower oxidation states than in (BH 4 ) − . The NEXAFS data also indicated the presence of amorphous boron at and above 340 °C. This study provides additional insights into the decomposition reaction of Mg(BH 4 ) 2 .

Suggested Citation

  • Rashmi Dahal & Jenny G. Vitillo & Anna C. Åsland & Christoph Frommen & Stefano Deledda & Olena Zavorotynska, 2022. "X-ray and Synchrotron FTIR Studies of Partially Decomposed Magnesium Borohydride," Energies, MDPI, vol. 15(21), pages 1-16, October.
  • Handle: RePEc:gam:jeners:v:15:y:2022:i:21:p:7998-:d:955498
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    References listed on IDEAS

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    1. Olena Zavorotynska & Stefano Deledda & Jenny G. Vitillo & Ivan Saldan & Matylda N. Guzik & Marcello Baricco & John C. Walmsley & Jiri Muller & Bjørn C. Hauback, 2015. "Combined X-ray and Raman Studies on the Effect of Cobalt Additives on the Decomposition of Magnesium Borohydride," Energies, MDPI, vol. 8(9), pages 1-18, August.
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