Wednesday, February 15, 2023

University of Limerick, Ireland researchers discover new material to ‘trap and store volatile gases’

The research team, which includes international collaborators in Japan, the US and South Africa, have discovered a new class of porous materials or sorbents for trapping and storing volatile gases.

Peer-Reviewed Publication

UNIVERSITY OF LIMERICK

UL Professor Michael Zaworotko 

IMAGE: PROFESSOR MICHAEL ZAWOROTKO, BERNAL CHAIR OF CRYSTAL ENGINEERING AND SCIENCE FOUNDATION OF IRELAND RESEARCH PROFESSOR AT UL’S BERNAL INSTITUTE view more 

CREDIT: ALAN PLACE/UL

University of Limerick, Ireland researchers discover new material to ‘trap and store volatile gases’

Press release (15/2/23)

***Repro free image attached

Researchers at University of Limerick in Ireland have discovered a new material that can ‘trap and store’ volatile gases.

The research team, which includes international collaborators in Japan, the US and South Africa, have discovered a new class of porous materials or sorbents for trapping and storing volatile gases.

The discovery has just been published in the world leading journal Nature Chemistry.

The team is led by Dr Varvara Nikolayenko, formerly of the Department of Chemical Sciences and UL’s Bernal Institute, now working at Bayer AG and Professor Michael Zaworotko, Bernal Chair of Crystal Engineering and Science Foundation of Ireland Research Professor at UL’s Bernal Institute.

The discovery is an extremely important one as there is an urgent need find to better ways to store volatile fuel (e.g., hydrogen and natural gas) and medicinal (e.g., oxygen and nitric oxide) gases, which currently require very high pressures or very low temperatures.

“Traditional sorbents have interconnected holes and pores like a sponge. The new sorbents we have discovered are more like Swiss cheese in that they have empty space, but they are not interconnected by pores,” explained Professor Zaworotko.

“Our new materials point towards an alternate approach to store such gases which is both less energy intensive and safer,” he added.

The research team said the key findings included that the so-called ‘Swiss cheese’ sorbent expands when it is exposed to gases with very little structural rearrangement and thereby captures increasingly large quantities of gas as pressure is increased.

“The changes in the sorbent are reversible so the gas can be easily removed, and the sorbent can be recycled for further use,” explained Dr Nikolayenko.

“It is counterintuitive to expect a sorbent which has no pores to have the ability to trap volatile gases. This raises the question of whether there are many more such sorbents that are hiding in plain sight,” she added.

The latest discovery builds on research Professor Zaworotko is carrying out at UL’s Bernal Institute in crystal engineering to tackle grand climate challenges.

Last year, Professor Zaworotko and his team developed a new material that has the ability to capture toxic chemicals from the air.

That material is capable of capturing trace amounts of benzene, a toxic pollutant, from the air and crucially use less energy than existing materials, which could revolutionise the search for clean air.

Professor Zaworotko and his team have also previously discovered a material with favourable properties for absorbing and releasing water from the atmosphere that could revolutionise dehumidification systems in buildings and the availability of water in regions of drought.

He explained: “People in science are driven by a dream. The dream is, in almost all cases, to have a positive impact on society. Water purification, carbon capture, cheaper and better pharmaceuticals, are just three examples of where crystal engineering could be the key and the pieces of that jigsaw puzzle are coming together now.”

ENDS

 

The study, ‘Reversible transformations between the non-porous phases of a flexible coordination network enabled by transient porosity’, by Varvara I. Nikolayenko, Michael J. Zaworotko and others, has just been published in the journal Nature Chemistry. See here for more: https://www.nature.com/articles/s41557-022-01128-3

 

About University of Limerick:

The University of Limerick is a research-led, independent, internationally focused university with more than 18,000 students and 1,800 staff. It is a young, energetic and enterprising university with a proud record of innovation in education and excellence in research and scholarship.

More information is available at www.ul.ie.

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About the Bernal Institute:

The Bernal Institute at University of Limerick is an €102-million science and engineering research institute comprising 20,000m2 of high-quality, multi-purpose research space in the new science and engineering zone at UL. The fluid fields of study and multidisciplinary nature of researchers working on structured materials uniquely enables the institute to address specific challenges within the areas of health, energy and the environment.

More information is available at www.bernalinstitute.com.

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