A Robust Infinite Zirconium Phenolate Building Unit to Enhance the Chemical Stability of Zr MOFs | Zendy

Mouchaham Georges | Zendy; Cooper Lucy | Zendy; Guillou Nathalie | Zendy; Martineau Charlotte | Zendy; Elkaïm Erik | Zendy; Bourrelly Sandrine | Zendy; Llewellyn Philip L. | Zendy; Allain Clémence | Zendy; Clavier Gilles | Zendy; Serre Christian | Zendy; Devic Thomas | Zendy

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A Robust Infinite Zirconium Phenolate Building Unit to Enhance the Chemical Stability of Zr MOFs

Author(s) -

Mouchaham Georges,

Cooper Lucy,

Guillou Nathalie,

Martineau Charlotte,

Elkaïm Erik,

Bourrelly Sandrine,

Llewellyn Philip L.,

Allain Clémence,

Clavier Gilles,

Serre Christian,

Devic Thomas

Publication year - 2015

Publication title -

angewandte chemie

Language(s) - English

Resource type - Journals

eISSN - 1521-3757

pISSN - 0044-8249

DOI - 10.1002/ange.201507058

Subject(s) - zirconium , carboxylate , ligand (biochemistry) , chemical stability , chemistry , stability (learning theory) , materials science , chemical engineering , inorganic chemistry , stereochemistry , organic chemistry , computer science , biochemistry , receptor , engineering , machine learning

A novel Zr‐chain based MOF, namely MIL‐163, was designed and successfully synthesized using a bis‐1,2,3‐trioxobenzene ligand. Endowed with large square‐shaped channels of 12 Å width, it shows remarkable water uptake (ca. 0.6 cm 3 g −1 at saturating vapor pressure) and a remarkable stability in simulated physiological media, where archetypical Zr carboxylate MOFs readily degrade.

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