Multi- and instabilities in gas partitioning between nanoporous materials and rubber balloons

Author:

Simon Cory M.1ORCID,Carraro Carlo2

Affiliation:

1. School of Chemical, Biological, and Environmental Engineering, Oregon State University, Corvallis, OR, USA

2. Department of Chemical and Biomolecular Engineering, University of California, Berkeley, Berkeley, CA, USA

Abstract

In the two-balloon experiment, two rubber balloons are connected and allowed to exchange gas. Owing to the non-monotonic relationship between the radius of the balloon and the pressure of gas inside it, the two-balloon system presents multi- and in-stabilities. Herein, we consider a two-adsorbent system, where two different adsorbents are allowed to exchange gas. We show that, for rigid adsorbents, the thermodynamic equilibrium state is unique. Then, we consider an adsorbent–balloon system, where an adsorbent exchanges gas with a rubber balloon. This system can exhibit multiple states at thermodynamic equilibrium– two (meta)stable and one unstable. The size of the balloon, pressure of gas in the balloon, and partitioning of gas between the adsorbent and the balloon differ among the equilibrium states. Temperature changes and the addition/removal of gas into/from the adsorbent–balloon system can induce catastrophe bifurcations and show hysteresis. Furthermore, the adsorbent–balloon system exhibits a critical temperature where, when approached from below, the discrepancy of balloon size between the two (meta)stable states decreases and, beyond, bistability is impossible. Practically, our findings preclude multiple partitions of adsorbed gas in rigid, mixed-linker or stratified metal-organic frameworks and may inspire new soft actuator and sensor designs.

Funder

Oregon State University start-up funds

Publisher

The Royal Society

Subject

General Physics and Astronomy,General Engineering,General Mathematics

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