Open AccessCharacterization of Reactive Organometallic Species via MicroED
Author(s) -
Christopher G. Jones,
Matthew Asay,
Lee Joon Kim,
Jack Kleinsasser,
Ambarneil Saha,
Tyler J. Fulton,
Kevin Berkley,
Duilio Cascio,
Andrey Malyutin,
Matthew P. Conley,
Brian M. Stoltz,
Vincent Lavallo,
José A. Rodríguez,
Hosea M. Nelson
Publication year - 2019
Publication title -
acs central science
Language(s) - Uncategorized
Resource type - Journals
SCImago Journal Rank - 4.893
H-Index - 76
eISSN - 2374-7951
pISSN - 2374-7943
DOI - 10.1021/acscentsci.9b00403
Subject(s) - diamagnetism , electron , transition metal , characterization (materials science) , crystallography , paramagnetism , reagent , hydride , chemistry , diffraction , chemical physics , metal , materials science , nanotechnology , condensed matter physics , physics , catalysis , optics , organic chemistry , nuclear physics , magnetic field , quantum mechanics
Here we apply microcrystal electron diffraction (MicroED) to the structural determination of transition-metal complexes. We find that the simultaneous use of 300 keV electrons, very low electron doses, and an ultrasensitive camera allows for the collection of data without cryogenic cooling of the stage. This technique reveals the first crystal structures of the classic zirconocene hydride, colloquially known as "Schwartz's reagent", a novel Pd(II) complex not amenable to solution-state NMR or X-ray crystallography, and five other paramagnetic and diamagnetic transition-metal complexes.
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