Elucidating metal–organic framework structures using synchrotron serial crystallography
Résumé
Metal organic frameworks (MOFs) are porous crystalline materials that display a wide variety of physical and
chemical properties. Their single crystal structure determination is often challenging because in most cases
micro- or nano-sized crystals spontaneously form upon MOF synthesis, which cannot be recrystallized.
The production of larger single crystals for structure determination involves optimizing, and thus modifying,
the conditions of synthesis, in which success cannot be guaranteed. Failure to produce crystals suitable for
single-crystal X-ray diffraction leaves the 3D structure of the MOF compound unknown, and scientists
must resort to more challenging structure solution methods based on X-ray powder or electron diffraction
data. These laborious tasks can be avoided by using serial crystallography techniques which merge data
collected on many micro-crystals. Here, we report the application of three synchrotron serial
crystallography methods. We call these “mesh”, “grid” and “mesh&collect” scans. “Still” images (no
rotation) are collected in the mesh scan approach, whereas small rotational wedges are collected in the
grid scan method. The third protocol, mesh&collect, combines the acquisition of still images and rotational
wedges. Using these means, we determine the ab initio structure of benchmark MOFs, MIL-100(Fe) and
ZIF-8, that differ largely in unit cell size. These methods are expected to be widely applicable and facilitate
structure determination of many MOF microcrystalline systems.
Domaines
Sciences du Vivant [q-bio]
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