Nature Communications (Jun 2024)

Bubbles enable volumetric negative compressibility in metastable elastocapillary systems

  • Davide Caprini,
  • Francesco Battista,
  • Paweł Zajdel,
  • Giovanni Di Muccio,
  • Carlo Guardiani,
  • Benjamin Trump,
  • Marcus Carter,
  • Andrey A. Yakovenko,
  • Eder Amayuelas,
  • Luis Bartolomé,
  • Simone Meloni,
  • Yaroslav Grosu,
  • Carlo Massimo Casciola,
  • Alberto Giacomello

DOI
https://doi.org/10.1038/s41467-024-49136-w
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 10

Abstract

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Abstract Although coveted in applications, few materials expand when subject to compression or contract under decompression, i.e., exhibit negative compressibility. A key step to achieve such counterintuitive behaviour is the destabilisations of (meta)stable equilibria of the constituents. Here, we propose a simple strategy to obtain negative compressibility exploiting capillary forces both to precompress the elastic material and to release such precompression by a threshold phenomenon – the reversible formation of a bubble in a hydrophobic flexible cavity. We demonstrate that the solid part of such metastable elastocapillary systems displays negative compressibility across different scales: hydrophobic microporous materials, proteins, and millimetre-sized laminae. This concept is applicable to fields such as porous materials, biomolecules, sensors and may be easily extended to create unexpected material susceptibilities.