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Pushing the limits of sensitivity and resolution for natural abundance 43Ca NMR using ultra-high magnetic field (35.2 T)

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Pushing the limits of sensitivity and resolution for natural abundance 43Ca NMR using ultra-high magnetic field (35.2 T). / Bonhomme, C.; Wang, X.; Hung, I. et al.
In: Chemical Communications, Vol. 54, No. 69, 07.09.2018, p. 9591-9594.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Bonhomme, C, Wang, X, Hung, I, Gan, Z, Gervais, C, Sassoye, C, Rimsza, J, Du, J, Smith, ME, Hanna, JV, Sarda, S, Gras, P, Combes, C & Laurencin, D 2018, 'Pushing the limits of sensitivity and resolution for natural abundance 43Ca NMR using ultra-high magnetic field (35.2 T)', Chemical Communications, vol. 54, no. 69, pp. 9591-9594. https://doi.org/10.1039/c8cc05193c

APA

Bonhomme, C., Wang, X., Hung, I., Gan, Z., Gervais, C., Sassoye, C., Rimsza, J., Du, J., Smith, M. E., Hanna, J. V., Sarda, S., Gras, P., Combes, C., & Laurencin, D. (2018). Pushing the limits of sensitivity and resolution for natural abundance 43Ca NMR using ultra-high magnetic field (35.2 T). Chemical Communications, 54(69), 9591-9594. https://doi.org/10.1039/c8cc05193c

Vancouver

Bonhomme C, Wang X, Hung I, Gan Z, Gervais C, Sassoye C et al. Pushing the limits of sensitivity and resolution for natural abundance 43Ca NMR using ultra-high magnetic field (35.2 T). Chemical Communications. 2018 Sept 7;54(69):9591-9594. Epub 2018 Aug 2. doi: 10.1039/c8cc05193c

Author

Bonhomme, C. ; Wang, X. ; Hung, I. et al. / Pushing the limits of sensitivity and resolution for natural abundance 43Ca NMR using ultra-high magnetic field (35.2 T). In: Chemical Communications. 2018 ; Vol. 54, No. 69. pp. 9591-9594.

Bibtex

@article{af5d2271de5446fcad2fa1f56539859c,
title = "Pushing the limits of sensitivity and resolution for natural abundance 43Ca NMR using ultra-high magnetic field (35.2 T)",
abstract = "Natural abundance 43Ca solid state NMR experiments are reported for the first time at ultra-high magnetic field (35.2 T) on a series of Ca-(pyro)phosphate and Ca-oxalate materials, which are of biological relevance in relation to biomineralization processes and the formation of pathological calcifications. The significant gain in both sensitivity and resolution at 35.2 T leads to unprecedented insight into the structure of both crystalline and amorphous phases. {\textcopyright} 2018 The Royal Society of Chemistry.",
author = "C. Bonhomme and X. Wang and I. Hung and Z. Gan and C. Gervais and C. Sassoye and J. Rimsza and J. Du and M.E. Smith and J.V. Hanna and S. Sarda and P. Gras and C. Combes and D. Laurencin",
note = "{\textcopyright} Royal Society of Chemistry 2018",
year = "2018",
month = sep,
day = "7",
doi = "10.1039/c8cc05193c",
language = "English",
volume = "54",
pages = "9591--9594",
journal = "Chemical Communications",
issn = "1359-7345",
publisher = "Royal Society of Chemistry",
number = "69",

}

RIS

TY - JOUR

T1 - Pushing the limits of sensitivity and resolution for natural abundance 43Ca NMR using ultra-high magnetic field (35.2 T)

AU - Bonhomme, C.

AU - Wang, X.

AU - Hung, I.

AU - Gan, Z.

AU - Gervais, C.

AU - Sassoye, C.

AU - Rimsza, J.

AU - Du, J.

AU - Smith, M.E.

AU - Hanna, J.V.

AU - Sarda, S.

AU - Gras, P.

AU - Combes, C.

AU - Laurencin, D.

N1 - © Royal Society of Chemistry 2018

PY - 2018/9/7

Y1 - 2018/9/7

N2 - Natural abundance 43Ca solid state NMR experiments are reported for the first time at ultra-high magnetic field (35.2 T) on a series of Ca-(pyro)phosphate and Ca-oxalate materials, which are of biological relevance in relation to biomineralization processes and the formation of pathological calcifications. The significant gain in both sensitivity and resolution at 35.2 T leads to unprecedented insight into the structure of both crystalline and amorphous phases. © 2018 The Royal Society of Chemistry.

AB - Natural abundance 43Ca solid state NMR experiments are reported for the first time at ultra-high magnetic field (35.2 T) on a series of Ca-(pyro)phosphate and Ca-oxalate materials, which are of biological relevance in relation to biomineralization processes and the formation of pathological calcifications. The significant gain in both sensitivity and resolution at 35.2 T leads to unprecedented insight into the structure of both crystalline and amorphous phases. © 2018 The Royal Society of Chemistry.

U2 - 10.1039/c8cc05193c

DO - 10.1039/c8cc05193c

M3 - Journal article

VL - 54

SP - 9591

EP - 9594

JO - Chemical Communications

JF - Chemical Communications

SN - 1359-7345

IS - 69

ER -