A 93Nb Solid-State NMR and Density Functional Theory Study of Four- and Six-Coordinate Niobate Systems

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A 93Nb Solid-State NMR and Density Functional Theory Study of Four- and Six-Coordinate Niobate Systems. / Hanna, John V.; Pike, Kevin J.; Charpentier, Thibault et al.
In: Chemistry - A European Journal, Vol. 16, No. 10, 08.03.2010, p. 3222-3239.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Hanna, JV, Pike, KJ, Charpentier, T, Kemp, TF, Smith, ME, Lucier, BEG, Schurko, RW & Cahill, LS 2010, 'A 93Nb Solid-State NMR and Density Functional Theory Study of Four- and Six-Coordinate Niobate Systems', Chemistry - A European Journal, vol. 16, no. 10, pp. 3222-3239. https://doi.org/10.1002/chem.200901581

APA

Hanna, J. V., Pike, K. J., Charpentier, T., Kemp, T. F., Smith, M. E., Lucier, B. E. G., Schurko, R. W., & Cahill, L. S. (2010). A 93Nb Solid-State NMR and Density Functional Theory Study of Four- and Six-Coordinate Niobate Systems. Chemistry - A European Journal, 16(10), 3222-3239. https://doi.org/10.1002/chem.200901581

Vancouver

Hanna JV, Pike KJ, Charpentier T, Kemp TF, Smith ME, Lucier BEG et al. A 93Nb Solid-State NMR and Density Functional Theory Study of Four- and Six-Coordinate Niobate Systems. Chemistry - A European Journal. 2010 Mar 8;16(10):3222-3239. doi: 10.1002/chem.200901581

Author

Hanna, John V. ; Pike, Kevin J. ; Charpentier, Thibault et al. / A 93Nb Solid-State NMR and Density Functional Theory Study of Four- and Six-Coordinate Niobate Systems. In: Chemistry - A European Journal. 2010 ; Vol. 16, No. 10. pp. 3222-3239.

Bibtex

@article{84ee3c08448c42e78344d539868f9bc5,

title = "A 93Nb Solid-State NMR and Density Functional Theory Study of Four- and Six-Coordinate Niobate Systems",

abstract = "A variable B0 field static (broadline) NMR study of a large suite of niobate materials has enabled the elucidation of high-precision measurement of 93Nb NMR interaction parameters such as the isotropic chemical shift (δiso), quadrupole coupling constant and asymmetry parameter (CQ and ηQ), chemical shift span/anisotropy and skew/asymmetry (Ω/Δδ and κ/ηδ) and Euler angles (α, β, γ) describing the relative orientation of the quadrupolar and chemical shift tensorial frames. These measurements have been augmented with ab initio DFT calculations by using WIEN2k and NMR-CASTEP codes, which corroborate these reported values. Unlike previous assertions made about the inability to detect CSA (chemical shift anisotropy) contributions from NbV in most oxo environments, this study emphasises that a thorough variable B0 approach coupled with the VOCS (variable offset cumulative spectroscopy) technique for the acquisition of undistorted broad (−1/2↔+1/2) central transition resonances facilitates the unambiguous observation of both quadrupolar and CSA contributions within these 93Nb broadline data. These measurements reveal that the 93Nb electric field gradient tensor is a particularly sensitive measure of the immediate and extended environments of the NbV positions, with CQ values in the 0 to >80 MHz range being measured; similarly, the δiso (covering an approximately 250 ppm range) and Ω values (covering a 0 to approximately 800 ppm range) characteristic of these niobate systems are also sensitive to structural disposition. However, their systematic rationalisation in terms of the NbO bond angles and distances defining the immediate NbV oxo environment is complicated by longer-range influences that usually involve other heavy elements comprising the structure. It has also been established in this study that the best computational method(s) of analysis for the 93Nb NMR interaction parameters generated here are the all-electron WIEN2k and the gauge included projector augmented wave (GIPAW) NMR-CASTEP DFT approaches, which account for the short- and long-range symmetries, periodicities and interaction-potential characteristics for all elements (and particularly the heavy elements) in comparison with Gaussian 03 methods, which focus on terminated portions of the total structure.",

keywords = "ab initio calculations, niobium, NMR spectroscopy , solid-state NMR spectroscopy , static line shapes",

author = "Hanna, {John V.} and Pike, {Kevin J.} and Thibault Charpentier and Kemp, {Thomas F.} and Smith, {Mark E.} and Lucier, {Bryan E. G.} and Schurko, {Robert W.} and Cahill, {Lindsay S.}",

year = "2010",

month = mar,

day = "8",

doi = "10.1002/chem.200901581",

language = "English",

volume = "16",

pages = "3222--3239",

journal = "Chemistry - A European Journal",

issn = "0947-6539",

publisher = "Wiley-VCH Verlag",

number = "10",

}

RIS

TY - JOUR

T1 - A 93Nb Solid-State NMR and Density Functional Theory Study of Four- and Six-Coordinate Niobate Systems

AU - Hanna, John V.

AU - Pike, Kevin J.

AU - Charpentier, Thibault

AU - Kemp, Thomas F.

AU - Smith, Mark E.

AU - Lucier, Bryan E. G.

AU - Schurko, Robert W.

AU - Cahill, Lindsay S.

PY - 2010/3/8

Y1 - 2010/3/8

N2 - A variable B0 field static (broadline) NMR study of a large suite of niobate materials has enabled the elucidation of high-precision measurement of 93Nb NMR interaction parameters such as the isotropic chemical shift (δiso), quadrupole coupling constant and asymmetry parameter (CQ and ηQ), chemical shift span/anisotropy and skew/asymmetry (Ω/Δδ and κ/ηδ) and Euler angles (α, β, γ) describing the relative orientation of the quadrupolar and chemical shift tensorial frames. These measurements have been augmented with ab initio DFT calculations by using WIEN2k and NMR-CASTEP codes, which corroborate these reported values. Unlike previous assertions made about the inability to detect CSA (chemical shift anisotropy) contributions from NbV in most oxo environments, this study emphasises that a thorough variable B0 approach coupled with the VOCS (variable offset cumulative spectroscopy) technique for the acquisition of undistorted broad (−1/2↔+1/2) central transition resonances facilitates the unambiguous observation of both quadrupolar and CSA contributions within these 93Nb broadline data. These measurements reveal that the 93Nb electric field gradient tensor is a particularly sensitive measure of the immediate and extended environments of the NbV positions, with CQ values in the 0 to >80 MHz range being measured; similarly, the δiso (covering an approximately 250 ppm range) and Ω values (covering a 0 to approximately 800 ppm range) characteristic of these niobate systems are also sensitive to structural disposition. However, their systematic rationalisation in terms of the NbO bond angles and distances defining the immediate NbV oxo environment is complicated by longer-range influences that usually involve other heavy elements comprising the structure. It has also been established in this study that the best computational method(s) of analysis for the 93Nb NMR interaction parameters generated here are the all-electron WIEN2k and the gauge included projector augmented wave (GIPAW) NMR-CASTEP DFT approaches, which account for the short- and long-range symmetries, periodicities and interaction-potential characteristics for all elements (and particularly the heavy elements) in comparison with Gaussian 03 methods, which focus on terminated portions of the total structure.

AB - A variable B0 field static (broadline) NMR study of a large suite of niobate materials has enabled the elucidation of high-precision measurement of 93Nb NMR interaction parameters such as the isotropic chemical shift (δiso), quadrupole coupling constant and asymmetry parameter (CQ and ηQ), chemical shift span/anisotropy and skew/asymmetry (Ω/Δδ and κ/ηδ) and Euler angles (α, β, γ) describing the relative orientation of the quadrupolar and chemical shift tensorial frames. These measurements have been augmented with ab initio DFT calculations by using WIEN2k and NMR-CASTEP codes, which corroborate these reported values. Unlike previous assertions made about the inability to detect CSA (chemical shift anisotropy) contributions from NbV in most oxo environments, this study emphasises that a thorough variable B0 approach coupled with the VOCS (variable offset cumulative spectroscopy) technique for the acquisition of undistorted broad (−1/2↔+1/2) central transition resonances facilitates the unambiguous observation of both quadrupolar and CSA contributions within these 93Nb broadline data. These measurements reveal that the 93Nb electric field gradient tensor is a particularly sensitive measure of the immediate and extended environments of the NbV positions, with CQ values in the 0 to >80 MHz range being measured; similarly, the δiso (covering an approximately 250 ppm range) and Ω values (covering a 0 to approximately 800 ppm range) characteristic of these niobate systems are also sensitive to structural disposition. However, their systematic rationalisation in terms of the NbO bond angles and distances defining the immediate NbV oxo environment is complicated by longer-range influences that usually involve other heavy elements comprising the structure. It has also been established in this study that the best computational method(s) of analysis for the 93Nb NMR interaction parameters generated here are the all-electron WIEN2k and the gauge included projector augmented wave (GIPAW) NMR-CASTEP DFT approaches, which account for the short- and long-range symmetries, periodicities and interaction-potential characteristics for all elements (and particularly the heavy elements) in comparison with Gaussian 03 methods, which focus on terminated portions of the total structure.

KW - ab initio calculations

KW - niobium

KW - NMR spectroscopy

KW - solid-state NMR spectroscopy

KW - static line shapes

U2 - 10.1002/chem.200901581

DO - 10.1002/chem.200901581

M3 - Journal article

VL - 16

SP - 3222

EP - 3239

JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

SN - 0947-6539

IS - 10

ER -

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