Emergence of chirality and structural complexity in single crystals at the molecular and morphological levels

Maria Chiara di Gregorio; Linda J.W. Shimon; Vlad Brumfeld; Lothar Houben; Michal Lahav; Milko E. van der Boom

doi:https://doi.org/10.1038/s41467-019-13925-5

Emergence of chirality and structural complexity in single crystals at the molecular and morphological levels

Maria Chiara di Gregorio, Linda J.W. Shimon, Vlad Brumfeld, Lothar Houben, Michal Lahav, Milko E. van der Boom

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

Naturally occurring single crystals having a multidomain morphology are a counterintuitive phenonomon: the macroscopic appearance is expected to follow the symmetry of the unit cell. Growing such crystals in the lab is a great challenge, especially from organic molecules. We achieve here uniform metallo-organic crystals that exhibit single crystallinity with apparently distinct domains and chirality. The chirality is present at both the molecular and macroscopic levels, although only achiral elements are used. “Yo-yo”-like structures having opposite helical handedness evolve from initially formed seemingly achiral cylinders. This non-polyhedral morphology coexists with a continuous coordination network forming homochiral channels. This work sheds light on the enigmatic aspects of fascinating crystallization processes occurring in biological mineralization. Our findings open up opportunities to generate new porous and hierarchical chiral materials.

Original language	English
Article number	380
Number of pages	9
Journal	Nature Communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-13925-5
State	Published - 20 Jan 2020

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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https://doi.org/10.1038/s41467-019-13925-5

Cite this

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title = "Emergence of chirality and structural complexity in single crystals at the molecular and morphological levels",

abstract = "Naturally occurring single crystals having a multidomain morphology are a counterintuitive phenonomon: the macroscopic appearance is expected to follow the symmetry of the unit cell. Growing such crystals in the lab is a great challenge, especially from organic molecules. We achieve here uniform metallo-organic crystals that exhibit single crystallinity with apparently distinct domains and chirality. The chirality is present at both the molecular and macroscopic levels, although only achiral elements are used. “Yo-yo”-like structures having opposite helical handedness evolve from initially formed seemingly achiral cylinders. This non-polyhedral morphology coexists with a continuous coordination network forming homochiral channels. This work sheds light on the enigmatic aspects of fascinating crystallization processes occurring in biological mineralization. Our findings open up opportunities to generate new porous and hierarchical chiral materials.",

author = "{di Gregorio}, {Maria Chiara} and Shimon, {Linda J.W.} and Vlad Brumfeld and Lothar Houben and Michal Lahav and {van der Boom}, {Milko E.}",

note = "This research was supported by the Irving and Cherna Moskowitz Center for Nano and Bioimaging at the Weizmann Institute of Science, the Israel Science Foundation (ISF), Minerva Foundation, Weizmann-Yale collaborative program, and the Helen and Martin Kimmel Center for Molecular Design. Dr. I. Pinkas and Dr. E. Shimoni are acknowledged for carrying out Raman measurements and microtome slicing of the crystals, respectively. The assistance of Dr. S. Kapishnikov is appreciated for the MicroCT measurements. We thank the scientists of ID-29 beamline at ESRF (Grenoble, France) for their technical support. We also like to thank Prof. B. Kahr and Prof. G. Markovich for fruitful discussions. M.E.v.d.B. holds the Bruce A. Pearlman Professional Chair in Synthetic Organic Chemistry. Author contributions M.C.d.G., L.J.W.S., M.L. and M.E.v.d.B. designed the experiments. M.C.d.G., L.J.W.S., V.B. and L.H. performed the experiments and analyzed the data. M.C.d.G., M.L. and M.E.v.d.B. prepared this manuscript.",

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AU - di Gregorio, Maria Chiara

AU - Shimon, Linda J.W.

AU - Brumfeld, Vlad

AU - Houben, Lothar

AU - Lahav, Michal

AU - van der Boom, Milko E.

N1 - This research was supported by the Irving and Cherna Moskowitz Center for Nano and Bioimaging at the Weizmann Institute of Science, the Israel Science Foundation (ISF), Minerva Foundation, Weizmann-Yale collaborative program, and the Helen and Martin Kimmel Center for Molecular Design. Dr. I. Pinkas and Dr. E. Shimoni are acknowledged for carrying out Raman measurements and microtome slicing of the crystals, respectively. The assistance of Dr. S. Kapishnikov is appreciated for the MicroCT measurements. We thank the scientists of ID-29 beamline at ESRF (Grenoble, France) for their technical support. We also like to thank Prof. B. Kahr and Prof. G. Markovich for fruitful discussions. M.E.v.d.B. holds the Bruce A. Pearlman Professional Chair in Synthetic Organic Chemistry. Author contributions M.C.d.G., L.J.W.S., M.L. and M.E.v.d.B. designed the experiments. M.C.d.G., L.J.W.S., V.B. and L.H. performed the experiments and analyzed the data. M.C.d.G., M.L. and M.E.v.d.B. prepared this manuscript.

PY - 2020/1/20

Y1 - 2020/1/20

N2 - Naturally occurring single crystals having a multidomain morphology are a counterintuitive phenonomon: the macroscopic appearance is expected to follow the symmetry of the unit cell. Growing such crystals in the lab is a great challenge, especially from organic molecules. We achieve here uniform metallo-organic crystals that exhibit single crystallinity with apparently distinct domains and chirality. The chirality is present at both the molecular and macroscopic levels, although only achiral elements are used. “Yo-yo”-like structures having opposite helical handedness evolve from initially formed seemingly achiral cylinders. This non-polyhedral morphology coexists with a continuous coordination network forming homochiral channels. This work sheds light on the enigmatic aspects of fascinating crystallization processes occurring in biological mineralization. Our findings open up opportunities to generate new porous and hierarchical chiral materials.

AB - Naturally occurring single crystals having a multidomain morphology are a counterintuitive phenonomon: the macroscopic appearance is expected to follow the symmetry of the unit cell. Growing such crystals in the lab is a great challenge, especially from organic molecules. We achieve here uniform metallo-organic crystals that exhibit single crystallinity with apparently distinct domains and chirality. The chirality is present at both the molecular and macroscopic levels, although only achiral elements are used. “Yo-yo”-like structures having opposite helical handedness evolve from initially formed seemingly achiral cylinders. This non-polyhedral morphology coexists with a continuous coordination network forming homochiral channels. This work sheds light on the enigmatic aspects of fascinating crystallization processes occurring in biological mineralization. Our findings open up opportunities to generate new porous and hierarchical chiral materials.

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JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 380

ER -

Emergence of chirality and structural complexity in single crystals at the molecular and morphological levels

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