Intercalation of a Multiply Bonded Dimolybdenum Core into Layered Metal Phosphates

Yeung gyo K. Shin; Daniel G. Nocera

doi:10.1021/ja00030a023

Intercalation of a Multiply Bonded Dimolybdenum Core into Layered Metal Phosphates

Yeung gyo K. Shin
, Daniel G. Nocera

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

Abstract

The spectroscopic and magnetic properties of a quadruply bonded dimolybdenum core intercalated into the layered metal phosphates (LMPs) of vanadium and niobium have been examined. Layer modification of the LMPs was achieved by redox intercalation of the Mo₂ ⁴⁺ core solvated by acetonitrile and by its ion-exchange reaction following reduction of the phosphate host layers with NaBH₄. Regardless of the reaction pathway, a similar product is obtained. The reacted layers display a contraction of the d-spacing with concomitant insertion of up to 0.2 molybdenum atoms per layer unit cell. Structural characterization and absorption spectroscopy of these materials reveal that the bimetallic core residing in the gallery interlayer region is the mixed-valence Mo₂ ⁵⁺ center in a transverse orientation. In this arrangement the ubiquitous D_4h coordination environment of multiply bonded “Mo₂O₈” complexes is achieved with the dimolybdenum core keyed into tetragonal oxygen cavities of the layer. Magnetic susceptibility and EPR studies reveal that electrons in the layers are antiferromagnetically coupled and that the exchange interaction is in a weak coupling regime. This exchange interaction is enhanced by the presence of the paramagnetic Mo₂ ⁵⁺ center within the interlayer region of the LMP.

Original language	American English
Pages (from-to)	1264-1271
Number of pages	8
Journal	Journal of the American Chemical Society
Volume	114
Issue number	4
DOIs	https://doi.org/10.1021/ja00030a023
State	Published - Feb 1 1992
Externally published	Yes

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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@article{1edcf17affb24064ad8289722010f593,

title = "Intercalation of a Multiply Bonded Dimolybdenum Core into Layered Metal Phosphates",

abstract = "The spectroscopic and magnetic properties of a quadruply bonded dimolybdenum core intercalated into the layered metal phosphates (LMPs) of vanadium and niobium have been examined. Layer modification of the LMPs was achieved by redox intercalation of the Mo2 4+ core solvated by acetonitrile and by its ion-exchange reaction following reduction of the phosphate host layers with NaBH4. Regardless of the reaction pathway, a similar product is obtained. The reacted layers display a contraction of the d-spacing with concomitant insertion of up to 0.2 molybdenum atoms per layer unit cell. Structural characterization and absorption spectroscopy of these materials reveal that the bimetallic core residing in the gallery interlayer region is the mixed-valence Mo2 5+ center in a transverse orientation. In this arrangement the ubiquitous D4h coordination environment of multiply bonded “Mo2O8” complexes is achieved with the dimolybdenum core keyed into tetragonal oxygen cavities of the layer. Magnetic susceptibility and EPR studies reveal that electrons in the layers are antiferromagnetically coupled and that the exchange interaction is in a weak coupling regime. This exchange interaction is enhanced by the presence of the paramagnetic Mo2 5+ center within the interlayer region of the LMP.",

author = "Shin, \{Yeung gyo K.\} and Nocera, \{Daniel G.\}",

year = "1992",

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doi = "10.1021/ja00030a023",

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AU - Shin, Yeung gyo K.

AU - Nocera, Daniel G.

PY - 1992/2/1

Y1 - 1992/2/1

N2 - The spectroscopic and magnetic properties of a quadruply bonded dimolybdenum core intercalated into the layered metal phosphates (LMPs) of vanadium and niobium have been examined. Layer modification of the LMPs was achieved by redox intercalation of the Mo2 4+ core solvated by acetonitrile and by its ion-exchange reaction following reduction of the phosphate host layers with NaBH4. Regardless of the reaction pathway, a similar product is obtained. The reacted layers display a contraction of the d-spacing with concomitant insertion of up to 0.2 molybdenum atoms per layer unit cell. Structural characterization and absorption spectroscopy of these materials reveal that the bimetallic core residing in the gallery interlayer region is the mixed-valence Mo2 5+ center in a transverse orientation. In this arrangement the ubiquitous D4h coordination environment of multiply bonded “Mo2O8” complexes is achieved with the dimolybdenum core keyed into tetragonal oxygen cavities of the layer. Magnetic susceptibility and EPR studies reveal that electrons in the layers are antiferromagnetically coupled and that the exchange interaction is in a weak coupling regime. This exchange interaction is enhanced by the presence of the paramagnetic Mo2 5+ center within the interlayer region of the LMP.

AB - The spectroscopic and magnetic properties of a quadruply bonded dimolybdenum core intercalated into the layered metal phosphates (LMPs) of vanadium and niobium have been examined. Layer modification of the LMPs was achieved by redox intercalation of the Mo2 4+ core solvated by acetonitrile and by its ion-exchange reaction following reduction of the phosphate host layers with NaBH4. Regardless of the reaction pathway, a similar product is obtained. The reacted layers display a contraction of the d-spacing with concomitant insertion of up to 0.2 molybdenum atoms per layer unit cell. Structural characterization and absorption spectroscopy of these materials reveal that the bimetallic core residing in the gallery interlayer region is the mixed-valence Mo2 5+ center in a transverse orientation. In this arrangement the ubiquitous D4h coordination environment of multiply bonded “Mo2O8” complexes is achieved with the dimolybdenum core keyed into tetragonal oxygen cavities of the layer. Magnetic susceptibility and EPR studies reveal that electrons in the layers are antiferromagnetically coupled and that the exchange interaction is in a weak coupling regime. This exchange interaction is enhanced by the presence of the paramagnetic Mo2 5+ center within the interlayer region of the LMP.

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DO - 10.1021/ja00030a023

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 4

ER -

Intercalation of a Multiply Bonded Dimolybdenum Core into Layered Metal Phosphates

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