f‐Element Half‐Sandwich Complexes: A Tetrasilylcyclobutadienyl–Uranium(IV)–Tris(tetrahydroborate) Anion Pianostool Complex

Boronski, Josef T.; Doyle, Laurence R.; Seed, John A.; Wooles, Ashley J.; Liddle, Stephen T.

doi:10.1002/ange.201913640

Cited by 9 publications

(3 citation statements)

References 66 publications

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“…The silyl substituents are also prone to undergoing activation by deprotonation. Compounds 1 – 3 therefore expand the very small family of lanthanide and actinide complexes of the pristine Cb′′′′ ligand, [38–41] and represent the first lanthanide metallocene‐like sandwich complexes of such a ligand. Viewed from the perspective of improving SMM properties, the broader significance of complex 1 is that if a method of removing the equatorial borohydride ligand can be devised, the (currently) hypothetical species [(η 4 ‐Cb′′′′)Dy(η 5 ‐C 5 Me 4 t Bu)] could be synthesized.…”

Section: Resultsmentioning

confidence: 99%

Dominance of Cyclobutadienyl Over Cyclopentadienyl in the Crystal Field Splitting in Dysprosium Single‐Molecule Magnets

et al. 2022

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Replacing a monoanionic cyclopentadienyl (Cp) ligand in dysprosium single‐molecule magnets (SMMs) with a dianionic cyclobutadienyl (Cb) ligand in the sandwich complexes [(η4‐Cb′′′′)Dy(η5‐C5Me4tBu)(BH4)]− (1), [(η4‐Cb′′′′)Dy(η8‐Pn†)K(THF)] (2) and [(η4‐Cb′′′′)Dy(η8‐Pn†)]− (3) leads to larger energy barriers to magnetization reversal (Cb′′′′=C4(SiMe3)4, Pn†=1,4‐di(tri‐isopropylsilyl)pentalenyl). Short distances to the Cb′′′′ ligands and longer distances to the Cp ligands in 1–3 are consistent with the crystal field splitting being dominated by the former. Theoretical analysis shows that the magnetic axes in the ground Kramers doublets of 1–3 are oriented towards the Cb′′′′ ligands. The theoretical axiality parameter and the relative axiality parameter Z and Zrel are introduced to facilitate comparisons of the SMM performance of 1–3 with a benchmark SMM. Increases in Z and Zrel when Cb′′′ replaces Cp signposts a route to SMMs with properties that could surpass leading systems.

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Section: Resultsmentioning

confidence: 99%

Dominance of Cyclobutadienyl Over Cyclopentadienyl in the Crystal Field Splitting in Dysprosium Single‐Molecule Magnets

et al. 2022

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“…The answer to (1) appears to be predominantly related to the presence of di-or trianionic ligands [23][24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39] ; indeed, we have previously found that pseudo-C 3v uranium(V) complexes with terminal nitrido-and oxo ligands tend to behave as belonging to a high-symmetry point group, unlike what their C 1 structures would dictate. 51,57 We found that some of the nitrido-complexes have electron paramagnetic resonance (EPR)-silent m J = G3/2 ground states (silent in true C 3v symmetry), with excited m J = G5/2 states observable by EPR (active even in true C 3v symmetry) lying within a few tens of cm À1 , 51 given the very sensitive nature of EPR, and that we could only observe EPR transitions in the excited state, the ground m J = G3/2 states must be very pure.…”

Section: Electronic Structure Calculationsmentioning

confidence: 98%

“…[19][20][21] Outside of ''simple'' high-symmetry complexes, sufficiently low-symmetry coordination geometries will usually exhibit a singlet (A) spin-orbit ground state 5,7,22 ; this is because uranium(IV) has two unpaired electrons and is thus a non-Kramers ion; hence, there is no requirement for any electronic degeneracies in the J = 4 spin-orbit multiplet after the action of the CF, because the CF effect for 5f-orbitals is significant. However, there are now a growing number of formally low-symmetry uranium(IV) complexes where with innocent ligands the low-temperature (<2 K) magnetic moments are quite high (R1 m B ), [23][24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39] suggesting that something is differentiating these complexes. Empirically, singlet ground states tend to be observed with monoanionic ligands, regardless of the (pseudo)symmetry, and higher magnetic moments have increasingly been observed at low temperatures when stronger di-or trianionic ligands are present, implying a (pseudo)doublet (E) spin-orbit ground state.…”

Section: Introductionmentioning

confidence: 99%

Anomalous magnetism of uranium(IV)-oxo and -imido complexes reveals unusual doubly degenerate electronic ground states

Seed

Birnoschi

et al. 2021

Chem

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Bergmann‐Medaille: R. T. Raines / Bergmann‐Nachwuchspreis: C. Schnepel / Bessel‐Forschungspreis: S. T. Liddle

2020

Angewandte Chemie

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Te chnology (MIT);Cambridge,USA) hat 2019 die Max-Bergmann-Medaille des Max-Bergmann-Kreises erhalten. Er wird fürs eine Forschung zur Stabilitätv on Peptiden und Proteinen und zum Einsatz chemoselektiver Umwandlungen in der chemischen Biologie ausgezeichnet. Raines promovierte 1986 unter Anleitung von Jeremy R. Knowles an der Harvard University in Chemie und absolvierte ein Postdoktorat bei William J. Rutter an der University of California, San Francisco (1986-1989). Anschließend wurde er Associate Professor for Biochemistry an der University of Wisconsin-Madison, wo er als Professor für Chemie und Biochemie bis zu seiner Emeritierung im Jahr 2017 wirkte.S either ist er als Roger and Georges Firmenich Professor of Natural Products Chemistry am Massachusetts Institute of Te chnology und als Associate Member des Broad Institute von MIT und Harvard tätig.R aines und seine Gruppe nutzen Ideen und Methoden aus der Chemie,u mP rozesse des Lebens zu untersuchen und zu kontrollieren;d er Schwerpunkt dabei liegt auf Struktur und Funktion von Proteinen. Sie berichteten in einer Angewandte-Chemie-Zuschrift über ein Angiogenin-Boronsäure-Konjugat mit neuroprotektiver Wirkung gegenüber reaktiven Sauerstoffspezies. [1] Max-Bergmann-Nachwuchspreis für Christian Schnepel In dieser Rubrik berichten wir über Auszeichnungen aller Art fürC hemiker/innen, die mit der Angewandten Chemie und ihren Schwesterzeitschriften als Autoren und Gutachter besonders eng verbunden sind.

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f‐Element Half‐Sandwich Complexes: A Tetrasilylcyclobutadienyl–Uranium(IV)–Tris(tetrahydroborate) Anion Pianostool Complex

Cited by 9 publications

References 66 publications

Dominance of Cyclobutadienyl Over Cyclopentadienyl in the Crystal Field Splitting in Dysprosium Single‐Molecule Magnets

Dominance of Cyclobutadienyl Over Cyclopentadienyl in the Crystal Field Splitting in Dysprosium Single‐Molecule Magnets

Anomalous magnetism of uranium(IV)-oxo and -imido complexes reveals unusual doubly degenerate electronic ground states

Bergmann‐Medaille: R. T. Raines / Bergmann‐Nachwuchspreis: C. Schnepel / Bessel‐Forschungspreis: S. T. Liddle

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