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Chemists develop highly porous material, more precious than diamonds

Date:
October 1, 2018
Source:
Technische Universität Dresden
Summary:
Researchers broke a world record: DUT-60 is a new crystalline framework with the world's highest specific surface and the highest specific pore volume measured so far among all known crystalline framework materials.
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Porosity is the key to high-performance materials for energy storage systems, environmental technologies or catalysts: The more porous a solid state material is, the more liquids and gases it is able to store. However, a multitude of pores destabilizes the material. In search of the stability limits of such frameworks, researchers of the TU Dresden's Faculty of Chemistry broke a world record: DUT-60 is a new crystalline framework with the world's highest specific surface and the highest specific pore volume (5.02 cm3/g) measured so far among all known crystalline framework materials.

The specific surface area describes the sum of all surface boundaries a material has: the outer visible ones as well as the inner pores. 90.3% of DUT-60 is free volume. The metal-organic framework (MOF) can adsorb huge amounts of gas -- and in that way it is able to store colossal quantities of gases or filter toxic gases from the air. "Materials with specific surfaces as high as these could show new and unexpected phenomena," explains Stefan Kaskel, Professor of Inorganic Chemistry at TU Dresden, the new material's importance for science. "If you imagine the inner surface of one gram of zeolite as an even, plane area, it would cover about 800 square metres, graphene would make it up to almost 3000 square metres. One gram of DUT-60 would attain an area of 7800 square metres."

The material was developed by computational methods and synthesized subsequently. There are only few compounds of low density that are mechanically stable enough to be accessible for gases without their surfaces being destroyed. "It took us five years from the computational development to the pure product DUT-60," resumes Prof. Kaskel. "Due to its very complicated production, the material is more expensive than gold and diamonds and so far can be only synthesized in small quantities of maximum 50 milligram per batch." The former world record was held by the material NU-110 published by Omar Farha, Northwestern University, in 2012: Its pore volume of 4.40 cm3/g is significantly lower than the new record holder. DUT-60 marks an important step in the investigation of the upper limits of porosity in crystalline porous materials, and stimulates the development of new methods to determine inner surfaces.

Within the DFG Research Unit FOR2433, Prof. Kaskel and partners are working intensively on the production of new porous materials that can change their structures dynamically and adaptively adjust their pore sizes. "Moreover, we are working on applications of porous materials within the fields of gas storage, environmental research, catalysis, batteries and air filtration. Here in Dresden, we are also producing metal organic frameworks on a scale of several kilograms. They can be ordered at the 'Materials Center Dresden'."


Story Source:

Materials provided by Technische Universität Dresden. Note: Content may be edited for style and length.


Journal Reference:

  1. Ines M. Hönicke, Irena Senkovska, Volodymyr Bon, Igor A. Baburin, Nadine Bönisch, Silvia Raschke, Jack D. Evans, Stefan Kaskel. Balancing Mechanical Stability and Ultrahigh Porosity in Crystalline Framework Materials. Angewandte Chemie International Edition, 2018; DOI: 10.1002/anie.201808240

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Technische Universität Dresden. "Chemists develop highly porous material, more precious than diamonds." ScienceDaily. ScienceDaily, 1 October 2018. <www.sciencedaily.com/releases/2018/10/181001114250.htm>.
Technische Universität Dresden. (2018, October 1). Chemists develop highly porous material, more precious than diamonds. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2018/10/181001114250.htm
Technische Universität Dresden. "Chemists develop highly porous material, more precious than diamonds." ScienceDaily. www.sciencedaily.com/releases/2018/10/181001114250.htm (accessed November 20, 2024).

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