Beilstein Journal of Nanotechnology (May 2022)

The role of sulfonate groups and hydrogen bonding in the proton conductivity of two coordination networks

  • Ali Javed,
  • Felix Steinke,
  • Stephan Wöhlbrandt,
  • Hana Bunzen,
  • Norbert Stock,
  • Michael Tiemann

DOI
https://doi.org/10.3762/bjnano.13.36
Journal volume & issue
Vol. 13, no. 1
pp. 437 – 443

Abstract

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The proton conductivity of two coordination networks, [Mg(H2O)2(H3L)]·H2O and [Pb2(HL)]·H2O (H5L = (H2O3PCH2)2-NCH2-C6H4-SO3H), is investigated by AC impedance spectroscopy. Both materials contain the same phosphonato-sulfonate linker molecule, but have clearly different crystal structures, which has a strong effect on proton conductivity. In the Mg-based coordination network, dangling sulfonate groups are part of an extended hydrogen bonding network, facilitating a “proton hopping” with low activation energy; the material shows a moderate proton conductivity. In the Pb-based metal-organic framework, in contrast, no extended hydrogen bonding occurs, as the sulfonate groups coordinate to Pb2+, without forming hydrogen bonds; the proton conductivity is much lower in this material.

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