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Borohydride-containing coordination polymers: synthesis, air stability and dehydrogenation.

Kentaro KadotaNghia Tuan DuongYusuke NishiyamaEasan SivaniahSusumu KitagawaSatoshi Horike
Published in: Chemical science (2019)
Control of the reactivity of hydride (H-) in crystal structures has been a challenge because of its strong electron-donating ability and reactivity with protic species. For metal borohydrides, the dehydrogenation activity and air stability are in a trade-off, and control of the reactivity of BH4 - has been demanded. For this purpose, we synthesize a series of BH4 --based coordination polymers/metal-organic frameworks. The reactivity of BH4 - in the structures is regulated by coordination geometry and neighboring ligands, and one of the compounds [Zn(BH4)2(dipyridylpropane)] exhibits both high dehydrogenation reactivity (1.4 wt% at 179 °C) and high air stability (50 RH% at 25 °C, 7 days). Single crystal X-ray diffraction analysis reveals that H δ+···H δ- dihydrogen interactions and close packing of hydrophobic ligands are the key for the reactivity and stability. The dehydrogenation mechanism is investigated by temperature-programmed desorption, in situ synchrotron PXRD and solid-state NMR.
Keyphrases
  • solid state
  • high resolution
  • ionic liquid
  • metal organic framework
  • magnetic resonance
  • heavy metals
  • risk assessment
  • mass spectrometry
  • genetic diversity