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Mixed Metal Amide-Hydride Solid Solutions for Potential Energy Storage Applications.

Thi Thu LeSimone BordignonMichele Remo ChierottiYuanyuan ShangAlexander SchoekelThomas KlassenClaudio Pistidda
Published in: Inorganic chemistry (2024)
Mixed solid solutions have played an important role in improving the kinetics and performance of hydrogen storage materials, as reported for the Li-Mg-N-H, K-Mg-N-H, and Rb-Mg-N-H systems. Besides, the formation of a homogeneous solid solution, mostly due to partial ionic substitution, is known to be an effective approach to improve the ionic conductivity of a material, which is an important property in electrochemical applications. We have reported a series of solid solutions based on mixed amide-hydride materials of the Group 1 elements, e.g., K(NH 2 ) x H 1- x , Rb(NH 2 ) x H 1- x , and Cs(NH 2 ) x H 1- x , via the exchange of NH 2 - /H - anions with the change of the lattice cell of the solid solution. Extending the research in this direction, we study the M-N-H solid solution in the MNH 2 -MH systems (M = K, Rb, Cs, and their combinations), i.e., KNH 2 -RbH, RbNH 2 -KH, RbNH 2 -CsH, and CsNH 2 -RbH via ex situ/in situ XRD, IR, and 1 H 2D solid-state NMR. The results obtained confirm the formation of mixed metal amide-hydride solid solutions associated with an exchange between both anionic (NH 2 - and H - ) and cationic species (K + , Rb + , and Cs + ). With this study, we aim to create an accessible library of M-N-H solid solutions for further studies as additives for hydrogen storage materials or ionic conductors.
Keyphrases
  • solid state
  • ionic liquid
  • room temperature
  • magnetic resonance
  • gold nanoparticles
  • cell therapy
  • risk assessment
  • metal organic framework
  • genetic diversity