image: Crystal structure of the CuCr PBA before pressure application. Large orange, large red, small orange, and small red spheres represent Cu, Cr, N, and C atoms, respectively. The blue sphere indicates the oxygen atom of lattice water located at the vacancy, while the light blue sphere represents the oxygen atom of ligand water coordinated to copper.
Credit: University of Tsukuba
Tsukuba, Japan—Copper-chromium Prussian blue analogs are crystalline compounds containing voids (pores). The researchers found that the water retained in these pores can be expelled by applying pressure to these crystals. Previously reported onsite water production technologies rely on variations in temperature and humidity, and are thus strongly dependent on changes in environmental conditions, thereby often involving long waiting periods.
In this study, the application of 1 GPa of pressure to a copper-chromium Prussian blue analog resulted in the expulsion of water stored in the crystal's pores, leading to the formation of droplets visible to the naked eye. The researchers also determined that approximately 240 g of water could be obtained per 1 kg of the crystal. Infrared spectroscopy, X-ray absorption, and fluorescence spectroscopy measurements, performed before and after pressurization, revealed changes in the electronic states of both the water molecules and copper within the pores of the crystal. These findings show that pressure alters the originally hydrophilic pores into hydrophobic ones, thereby providing insights into the water-discharge mechanism.
This achievement is anticipated to the advancement of pressure-induced onsite water production technologies for use in arid and other harsh environments as well as provides a new perspective for developing water resource reuse technologies.
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This research was supported in part by the Japan Science and Technology FOREST Program (JPMJFR213Q), Japan Society for the Promotion of Science Grant-in-Aid for Scientific Research (B) (22H02046), the JST SPRING program (JSMJSP2124), and Tsukuba Basic Research Support Program (Type S).
Original Paper
Title of original paper:
Pressure-induced water producing using a copper-chromium Prussian blue analog
Journal:
Journal of Materials Chemistry A
DOI:
10.1039/D4TA08305A
Correspondence
Professor TOKORO, Hiroko
Institute of Pure and Applied Sciences, University of Tsukuba
Professor OHKOSHI, Shin-ichi
Department of Chemistry, School of Science, The University of Tokyo
Related Link
Institute of Pure and Applied Sciences
Journal
Journal of Materials Chemistry A
Article Title
Pressure-induced water production using a copper–chromium Prussian blue analog
Article Publication Date
8-Apr-2025