AI Article Synopsis
- Water is a highly reactive and abundant substance that significantly affects the properties of metal-organic frameworks (MOFs), which are a rapidly developing class of materials.
- Research shows that high-pressure water vapor can drastically change the structure and characteristics of MOF glasses, particularly a variant known as ZIF-62.
- Key findings highlight that under specific heat treatments and water vapor pressures, the melting and glass transition temperatures of the MOF can drop by over 100 °C, while its hardness and Young's modulus can increase by up to 100%.
Article Abstract
Water is one of the most reactive and abundant molecules on Earth, and it is thus crucial to understand its reactivity with various material families. One of the big unknown questions is how water in liquid and vapor forms impact the fast-emerging class of metal-organic frameworks (MOFs). Here, we discover that high-pressure water vapor drastically modifies the structure and hence the dynamic, thermodynamic, and mechanical properties of MOF glasses. In detail, we find that an archetypical MOF (ZIF-62) is extremely sensitive to heat treatments performed at 460 °C and water vapor pressures up to ∼110 bar. Both the melting and glass transition temperatures decrease remarkably (by >100 °C), and simultaneously, hardness and Young's modulus increase by up to 100% under very mild treatment conditions (<20 bar of hydrothermal pressure). Structural analyses suggest water to partially coordinate to Zn in the form of a hydroxide ion by replacing a bridging imidazolate-based linker. The work provides insight into the role of hot-compressed water in influencing the structure and properties of MOF glasses and opens a new route for systematically changing the thermodynamics and kinetics of MOF liquids and thus altering the thermal and mechanical properties of the resulting MOF glasses.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10976635 | PMC |
| http://dx.doi.org/10.1021/acs.chemmater.3c02873 | DOI Listing |
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