1996
DOI: 10.1002/ange.19961081332
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Intramolekulare Lithium‐Bewegungen im Kristall

Abstract: Als Rotation der Atome um den Molekülschwerpunkt kann die kooperative, intramolekulare Bewegung der beiden Lithium‐Atome im festen Amid Li2[(tBu‐O‐SiMe2)3N]2 kurz über Raumtemperatur beschrieben werden. Diese Bewegung kann durch Abkühlung der Probe angehalten werden, wobei ein Phasenübergang stattfindet. Bei Temperaturen oberhalb 100°C tritt ein weiterer Phasenübergang in eine „plastische Phase”︁ auf, in der die gesamten Moleküle um ihre Schwerpunkte taumeln.

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Cited by 11 publications
(7 citation statements)
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“…The overall point symmetry of this movement must be at least compatible with D 2 d (−42m), which is possible only if the lithium atoms are involved in the molecular dynamics. It can be anticipated that these movements should be similar to the ones observed in the crystalline derivative 1 . It should, however, be pointed out that during these dynamic rearrangements, bond closures and openings should also be taken into account.…”
Section: Introductionmentioning
confidence: 63%
See 1 more Smart Citation
“…The overall point symmetry of this movement must be at least compatible with D 2 d (−42m), which is possible only if the lithium atoms are involved in the molecular dynamics. It can be anticipated that these movements should be similar to the ones observed in the crystalline derivative 1 . It should, however, be pointed out that during these dynamic rearrangements, bond closures and openings should also be taken into account.…”
Section: Introductionmentioning
confidence: 63%
“…Lithium atoms with a formal positive charge of +1 have been shown to be easily moved in ionic solid materials such as Li 3 N when the crystal is brought in an electric field. , This lithium conduction, which is useful for solid-state batteries, is connected to a lithium mobility . Recently, we were able to show that lithium mobility can also be encountered in crystals of a special lithium amide [tBuO−SiMe 2 −N−SiMe 2 −OtBu] 2 Li 2 ( 1 ) …”
Section: Introductionmentioning
confidence: 99%
“…Our idea was to generate such thermodynamically unstable compounds by using a further intramolecular nucleophilic ligand to raise the coordination number at the germanium or tin atom. For this purpose we have synthesized a variety of silazanes (13, 14, 15, Scheme 10) which consist, apart from the N-H groups used for bonding to germanium or tin atoms, of basic atoms (nitrogen or oxygen) [27][28][29].…”
Section: Base Stabilized Bis(amino)germaimines and -Thiones And The Cmentioning
confidence: 99%
“…Before bonding to germanium or tin, the amines 13-15 must first be converted to the corresponding lithium derivatives. The lithium derivatives of 13 and 15 have been isolated and structurally characterized by X-ray diffraction [27,29].…”
Section: Base Stabilized Bis(amino)germaimines and -Thiones And The Cmentioning
confidence: 99%
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