Metal-organic framework glasses with permanent accessible porosity.
Chao Zhou,Louis Longley,Andraž Krajnc,Glen J. Smales,Ang Qiao,Ilknur Erucar,Cara M. Doherty,Aaron W. Thornton,Anita J. Hill,Christopher W. Ashling,Omid T. Qazvini,Seok J. Lee,Philip A. Chater,Nicholas J. Terrill,Andrew J. Smith,Yuanzheng Yue,Gregor Mali,David A. Keen,Shane G. Telfer,Thomas D. Bennett +19 more
TL;DR: The first glasses that are permanently and reversibly porous toward incoming gases, without post-synthetic treatment are reported, report that glasses derived from ZIF-76 parent materials possess 4 – 8 Å pores and exhibit reversible gas adsorption.
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Abstract: To date, only several microporous, and even fewer nanoporous, glasses have been produced, always via post synthesis acid treatment of phase separated dense materials, e.g. Vycor glass. In contrast, high internal surface areas are readily achieved in crystalline materials, such as metal-organic frameworks (MOFs). It has recently been discovered that a new family of melt quenched glasses can be produced from MOFs, though they have thus far lacked the accessible and intrinsic porosity of their crystalline precursors. Here, we report the first glasses that are permanently and reversibly porous toward incoming gases, without post-synthetic treatment. We characterize the structure of these glasses using a range of experimental techniques, and demonstrate pores in the range of 4 – 8 A. The discovery of MOF glasses with permanent accessible porosity reveals a new category of porous glass materials that are elevated beyond conventional inorganic and organic porous glasses by their diversity and tunability. Metal–organic framework glasses have emerged as a new family of melt-quenched glass, but have yet to display the accessible porosity of their crystalline counterparts. Here, Bennett and colleagues report that glasses derived from ZIF-76 parent materials possess 4 – 8 A pores and exhibit reversible gas adsorption.
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Citations
X‐ray Electron Density Study of the Chemical Bonding Origin of Glass Formation in Metal–Organic Frameworks
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References
The Chemistry and Applications of Metal-Organic Frameworks
Hiroyasu Furukawa,Hiroyasu Furukawa,Kyle E. Cordova,Kyle E. Cordova,Michael O'Keeffe,Michael O'Keeffe,Omar M. Yaghi,Omar M. Yaghi,Omar M. Yaghi +8 more
TL;DR: Metal-organic frameworks are porous materials that have potential for applications such as gas storage and separation, as well as catalysis, and methods are being developed for making nanocrystals and supercrystals of MOFs for their incorporation into devices.
14K
The Cambridge Structural Database: a quarter of a million crystal structures and rising
TL;DR: The Cambridge Structural Database now contains data for more than a quarter of a million small-molecule crystal structures, and projections concerning future accession rates indicate that the CSD will contain at least 500,000 crystal structures by the year 2010.
10.5K
DREIDING: A generic force field for molecular simulations
TL;DR: The DREIDING force field as discussed by the authors uses general force constants and geometry parameters based on simple hybridization considerations rather than individual force constants or geometric parameters that depend on the particular combination of atoms involved in the bond, angle, or torsion terms.
6.2K
High-throughput synthesis of zeolitic imidazolate frameworks and application to CO2 capture.
Rahul Banerjee,Anh Phan,Bo Wang,Carolyn B. Knobler,Hiroyasu Furukawa,Michael O'Keeffe,Omar M. Yaghi +6 more
TL;DR: Members of a selection of zeolitic imidazolate frameworks have high thermal stability and chemical stability in refluxing organic and aqueous media, and they exhibit unusual selectivity for CO2 capture from CO2/CO mixtures and extraordinary capacity for storing CO2.
3.5K