New materials for storing flammable industrial gases

How do I store more, and better? This summarizes the challenge of transporting flammable gases. To ensure industrial safety, these gases must be handled at defined temperature and pressure conditions that do not allow for optimal storage and release cycles. Existing porous materials can facilitate the capture of certain gases, but their high affinity for these molecules complicates their release: a large amount of gas then remains trapped in the host material.

Scientists¹ have just shown that new patented materials² could provide a solution, by demonstrating their ability to capture and release acetylene. For a given volume, they can store and release 90 times more acetylene. In that step, it is even possible to recover 77% of the gas stored in a cylinder – far more than with existing porous materials. And all this is at temperature and pressure conditions suitable for industrial applications.

These materials belong to the family of Metal-Organic frameworks (MOFs) that form nanoporous crystal structures. The MOFs studied during this work have the peculiarity of being flexible, and thus offer two states: "open" and "closed", facilitating gas storage and release respectively. In addition, they can be modified to control the storage–release pressure very finely, and thus be suitable for various industrial constraints.

Based on these results, the research team plans to test new modifications to give these flexible MOFs novel properties, for example to facilitate the capture of CO₂, methane or hydrogen. Reducing the cost of these new materials remains a major objective in order to develop industrial applications.

This research was carried out as part of the International Research Project³ SMOLAB, which concentrates and reinforces complementary French and Japanese strengths in the field of flexible MOFs and their applications. SMOLAB was created in 2018 by the University of Kyoto and the CNRS, in partnership with avec Air Liquide, Claude Bernard University Lyon 1, Chimie ParisTech / PSL University.

Notes

1- At the Institut de Recherche de Chimie Paris (CNRS/Chimie ParisTech - PSL).

2- Developed by the University of Kyoto and Air Liquide, reference WO2021043492A1.

3- The International Research Projects are collaborative research projects established between one or more CNRS laboratories and laboratories in one or two foreign countries. Through them established collaborations are consolidated by short- or medium-term scientific partnerships. They include working meetings and seminars, the development of joint research activities including field research, and the supervision of students.