Effect of crystal packing on the structures of polymeric metallocenes

R E Dinnebier; S van Smaalen; F Olbrich; Stefan Carlson

doi:10.1021/ic049214y

Effect of crystal packing on the structures of polymeric metallocenes

R E Dinnebier, S van Smaalen, F Olbrich, Stefan Carlson

MAX IV Laboratory

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

Abstract

The pressure dependencies of the crystal structures of the polymeric metallocenes lithium cyclopentadienide (LiCp) and potassium cyclopentadienide (KCp) have been determined by synchrotron X-ray powder diffraction. The decrease of the volume of LiCp by 34% up to a pressure of p = 12.2 GPa and of KCp by 23% at p = 5.3 GPa as well as the bulk moduli of K = 7.7 GPa for LiCp and 4.9 GPa for KCp indicate a high compressibility for these compounds. The crystal structures of KCp have been determined up to p = 3.9 GPa. An increase of the bend angle is found from 450 at P = 0 GPa up to 510 at p = 3.9 GPa. This variation is completely explained by a model invoking attractive K+ Cp- interaction and repulsive nonbonded carbon-carbon interactions. It is proposed that the bend angle in the polymeric alkali metal metallocenes is the result of the optimization of the crystal packing.

Original language	English
Pages (from-to)	964-968
Journal	Inorganic Chemistry
Volume	44
Issue number	4
DOIs	https://doi.org/10.1021/ic049214y
Publication status	Published - 2005

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Natural Sciences
Physical Sciences

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10.1021/ic049214y

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title = "Effect of crystal packing on the structures of polymeric metallocenes",

abstract = "The pressure dependencies of the crystal structures of the polymeric metallocenes lithium cyclopentadienide (LiCp) and potassium cyclopentadienide (KCp) have been determined by synchrotron X-ray powder diffraction. The decrease of the volume of LiCp by 34% up to a pressure of p = 12.2 GPa and of KCp by 23% at p = 5.3 GPa as well as the bulk moduli of K = 7.7 GPa for LiCp and 4.9 GPa for KCp indicate a high compressibility for these compounds. The crystal structures of KCp have been determined up to p = 3.9 GPa. An increase of the bend angle is found from 450 at P = 0 GPa up to 510 at p = 3.9 GPa. This variation is completely explained by a model invoking attractive K+ Cp- interaction and repulsive nonbonded carbon-carbon interactions. It is proposed that the bend angle in the polymeric alkali metal metallocenes is the result of the optimization of the crystal packing.",

author = "Dinnebier, {R E} and {van Smaalen}, S and F Olbrich and Stefan Carlson",

year = "2005",

doi = "10.1021/ic049214y",

language = "English",

volume = "44",

pages = "964--968",

journal = "Inorganic Chemistry",

issn = "1520-510X",

publisher = "The American Chemical Society (ACS)",

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}

TY - JOUR

T1 - Effect of crystal packing on the structures of polymeric metallocenes

AU - Dinnebier, R E

AU - van Smaalen, S

AU - Olbrich, F

AU - Carlson, Stefan

PY - 2005

Y1 - 2005

N2 - The pressure dependencies of the crystal structures of the polymeric metallocenes lithium cyclopentadienide (LiCp) and potassium cyclopentadienide (KCp) have been determined by synchrotron X-ray powder diffraction. The decrease of the volume of LiCp by 34% up to a pressure of p = 12.2 GPa and of KCp by 23% at p = 5.3 GPa as well as the bulk moduli of K = 7.7 GPa for LiCp and 4.9 GPa for KCp indicate a high compressibility for these compounds. The crystal structures of KCp have been determined up to p = 3.9 GPa. An increase of the bend angle is found from 450 at P = 0 GPa up to 510 at p = 3.9 GPa. This variation is completely explained by a model invoking attractive K+ Cp- interaction and repulsive nonbonded carbon-carbon interactions. It is proposed that the bend angle in the polymeric alkali metal metallocenes is the result of the optimization of the crystal packing.

AB - The pressure dependencies of the crystal structures of the polymeric metallocenes lithium cyclopentadienide (LiCp) and potassium cyclopentadienide (KCp) have been determined by synchrotron X-ray powder diffraction. The decrease of the volume of LiCp by 34% up to a pressure of p = 12.2 GPa and of KCp by 23% at p = 5.3 GPa as well as the bulk moduli of K = 7.7 GPa for LiCp and 4.9 GPa for KCp indicate a high compressibility for these compounds. The crystal structures of KCp have been determined up to p = 3.9 GPa. An increase of the bend angle is found from 450 at P = 0 GPa up to 510 at p = 3.9 GPa. This variation is completely explained by a model invoking attractive K+ Cp- interaction and repulsive nonbonded carbon-carbon interactions. It is proposed that the bend angle in the polymeric alkali metal metallocenes is the result of the optimization of the crystal packing.

U2 - 10.1021/ic049214y

DO - 10.1021/ic049214y

M3 - Article

SN - 1520-510X

VL - 44

SP - 964

EP - 968

JO - Inorganic Chemistry

JF - Inorganic Chemistry

IS - 4

ER -

Effect of crystal packing on the structures of polymeric metallocenes

Abstract

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