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Volume 3, Issue 2

ISSN: 2470-9905

Crystallography 2017

October 16-17, 2017

2

nd

International Conference on

October 16-17, 2017 | Chicago, USA

Applied Crystallography

Designing chiral metal-organic assemblies

Michal Lahav

Weizmann Institute of Science, Israel

C

oordination-based polymers and metal-organic frameworks (MOFs) have been explored since their serendipity discovery by a

Berlin color-maker named Diesbach at the beginning of the 18th century. These intriguing materials combine metal-coordination

chemistry with the often complex formation of large supramolecular structures and may exhibit optical, catalytic, redox and magnetic

functions derived from their metallic elements. Such materials are currently generated by the dozens in a gold-rush-type search for

unique properties mainly related to the storage and release of energy (e.g., hydrocarbons, dihydrogen) at ambient temperatures and

pressures. How the molecular components, metal salts and experimental conditions control the dimensions, shapes and homogeneity

of these coordination-based materials is barely known. Moreover, the formation of chiral MOFs and MOFs confined on surfaces is

especially challenging. We demonstrated the controlled generation of various homogeneous MOF structures from solution and on

surfaces. Using a versatile ligand system that binds late-transition metals in a defined manner, we address various challenging issues

related to the mechanism underlying the formation of such homogeneous structures at the (sub)-microscale, their magnetic and

electronic properties and other functions. These new chiral materials have been characterized by a series of complementary methods,

including electron microscopy, X-ray powder diffraction, atomic force microscopy and synchrotron X-ray reflectivity.

Figure-1: Examples of metal-organic frameworks (MOFs).

Biography

Michal Lahav has completed her BSc and PhD studies in Chemistry from the Hebrew University of Jerusalem, Israel. She was a Postdoctoral Researcher at the Weizmann

Institute of Science for two years before she moved to Harvard University, where she studied nanochemistry. After two years of postdoctoral work in the United States, she

returned to Israel and started to work as a Scientific Advisor at the Weizmann Institute of Science. She was appointed as an Associate Staff Scientist in the Department

of Organic Chemistry in 2011. Her interdisciplinary materials chemistry research is related to the self-assembly of metallo-organic materials for energy storage and for

electrochromics whose products are now being patented. Her work is related to fundamental understanding of the formation and electronic properties of these metallo-su-

pramolecular architectures. Her prizes and honors include the Dr. Maxine Singer Prize for Outstanding Staff Scientists.

michal.lahav@weizmann.ac.il

Michal Lahav, Struct Chem Crystallogr Commun, 3:2

DOI: 10.21767/2470-9905-C1-002