Molecular Niobium Precursors in Various Oxidation States: An XAS Case Study

Maciej D. Korzyński; Luca Braglia; Elisa Borfecchia; Carlo Lamberti; Mircea Dincǎ

doi:10.1021/acs.inorgchem.8b02616

Molecular Niobium Precursors in Various Oxidation States: An XAS Case Study

Maciej D. Korzyński, Luca Braglia, Elisa Borfecchia, Carlo Lamberti, Mircea Dincǎ

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

8 Scopus citations

Abstract

Although X-ray absorption spectroscopy (XAS) has become an indispensable tool in characterization of solid-state materials, it is less of a staple in molecular chemistry of niobium. Scattering X-ray techniques remain relatively unexplored for the systematic study of molecular niobium compounds. Here, we use XAS to probe the niobium environment in commonly used Nb precursors in +V, +IV, and +III oxidation states. Apart from laying out the guidelines for identification of niobium oxidation states, we correlate our data with density functional theory models to provide further structural insight. Of particular note, we are able to shed light on the nature of the commonly used and catalytically competent NbCl₃(DME), which had not been previously characterized structurally despite its prevalence in Nb chemistry.

Original language	English (US)
Pages (from-to)	13998-14004
Number of pages	7
Journal	Inorganic Chemistry
Volume	57
Issue number	21
DOIs	https://doi.org/10.1021/acs.inorgchem.8b02616
State	Published - Nov 5 2018
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physical and Theoretical Chemistry
Inorganic Chemistry

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10.1021/acs.inorgchem.8b02616

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title = "Molecular Niobium Precursors in Various Oxidation States: An XAS Case Study",

abstract = "Although X-ray absorption spectroscopy (XAS) has become an indispensable tool in characterization of solid-state materials, it is less of a staple in molecular chemistry of niobium. Scattering X-ray techniques remain relatively unexplored for the systematic study of molecular niobium compounds. Here, we use XAS to probe the niobium environment in commonly used Nb precursors in +V, +IV, and +III oxidation states. Apart from laying out the guidelines for identification of niobium oxidation states, we correlate our data with density functional theory models to provide further structural insight. Of particular note, we are able to shed light on the nature of the commonly used and catalytically competent NbCl3(DME), which had not been previously characterized structurally despite its prevalence in Nb chemistry.",

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T1 - Molecular Niobium Precursors in Various Oxidation States

T2 - An XAS Case Study

AU - Korzyński, Maciej D.

AU - Braglia, Luca

AU - Borfecchia, Elisa

AU - Lamberti, Carlo

AU - Dincǎ, Mircea

PY - 2018/11/5

Y1 - 2018/11/5

N2 - Although X-ray absorption spectroscopy (XAS) has become an indispensable tool in characterization of solid-state materials, it is less of a staple in molecular chemistry of niobium. Scattering X-ray techniques remain relatively unexplored for the systematic study of molecular niobium compounds. Here, we use XAS to probe the niobium environment in commonly used Nb precursors in +V, +IV, and +III oxidation states. Apart from laying out the guidelines for identification of niobium oxidation states, we correlate our data with density functional theory models to provide further structural insight. Of particular note, we are able to shed light on the nature of the commonly used and catalytically competent NbCl3(DME), which had not been previously characterized structurally despite its prevalence in Nb chemistry.

AB - Although X-ray absorption spectroscopy (XAS) has become an indispensable tool in characterization of solid-state materials, it is less of a staple in molecular chemistry of niobium. Scattering X-ray techniques remain relatively unexplored for the systematic study of molecular niobium compounds. Here, we use XAS to probe the niobium environment in commonly used Nb precursors in +V, +IV, and +III oxidation states. Apart from laying out the guidelines for identification of niobium oxidation states, we correlate our data with density functional theory models to provide further structural insight. Of particular note, we are able to shed light on the nature of the commonly used and catalytically competent NbCl3(DME), which had not been previously characterized structurally despite its prevalence in Nb chemistry.

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Molecular Niobium Precursors in Various Oxidation States: An XAS Case Study

Abstract

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