Nanodiamond-enhanced MRI via in situ hyperpolarization

Hyperpolarized magnetic resonance imaging can enhance imaging contrast by orders of magnitude, but applications are limited by the thermal relaxation of hyperpolarized states. Here, Waddingtonet al. demonstrate the on-demand hyperpolarization of hydrogen spins through the Overhauser effect with nano...

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Autores principales:	David E. J. Waddington, Mathieu Sarracanie, Huiliang Zhang, Najat Salameh, David R. Glenn, Ewa Rej, Torsten Gaebel, Thomas Boele, Ronald L. Walsworth, David J. Reilly, Matthew S. Rosen
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2017
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/b51b984e0c19410db97859d79257ccb7
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spelling	oai:doaj.org-article:b51b984e0c19410db97859d79257ccb72021-12-02T14:42:23ZNanodiamond-enhanced MRI via in situ hyperpolarization10.1038/ncomms151182041-1723https://doaj.org/article/b51b984e0c19410db97859d79257ccb72017-04-01T00:00:00Zhttps://doi.org/10.1038/ncomms15118https://doaj.org/toc/2041-1723Hyperpolarized magnetic resonance imaging can enhance imaging contrast by orders of magnitude, but applications are limited by the thermal relaxation of hyperpolarized states. Here, Waddingtonet al. demonstrate the on-demand hyperpolarization of hydrogen spins through the Overhauser effect with nanodiamonds.David E. J. WaddingtonMathieu SarracanieHuiliang ZhangNajat SalamehDavid R. GlennEwa RejTorsten GaebelThomas BoeleRonald L. WalsworthDavid J. ReillyMatthew S. RosenNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-8 (2017)
institution	DOAJ
collection	DOAJ
language	EN
topic	Science Q
spellingShingle	Science Q David E. J. Waddington Mathieu Sarracanie Huiliang Zhang Najat Salameh David R. Glenn Ewa Rej Torsten Gaebel Thomas Boele Ronald L. Walsworth David J. Reilly Matthew S. Rosen Nanodiamond-enhanced MRI via in situ hyperpolarization
description	Hyperpolarized magnetic resonance imaging can enhance imaging contrast by orders of magnitude, but applications are limited by the thermal relaxation of hyperpolarized states. Here, Waddingtonet al. demonstrate the on-demand hyperpolarization of hydrogen spins through the Overhauser effect with nanodiamonds.
format	article
author	David E. J. Waddington Mathieu Sarracanie Huiliang Zhang Najat Salameh David R. Glenn Ewa Rej Torsten Gaebel Thomas Boele Ronald L. Walsworth David J. Reilly Matthew S. Rosen
author_facet	David E. J. Waddington Mathieu Sarracanie Huiliang Zhang Najat Salameh David R. Glenn Ewa Rej Torsten Gaebel Thomas Boele Ronald L. Walsworth David J. Reilly Matthew S. Rosen
author_sort	David E. J. Waddington
title	Nanodiamond-enhanced MRI via in situ hyperpolarization
title_short	Nanodiamond-enhanced MRI via in situ hyperpolarization
title_full	Nanodiamond-enhanced MRI via in situ hyperpolarization
title_fullStr	Nanodiamond-enhanced MRI via in situ hyperpolarization
title_full_unstemmed	Nanodiamond-enhanced MRI via in situ hyperpolarization
title_sort	nanodiamond-enhanced mri via in situ hyperpolarization
publisher	Nature Portfolio
publishDate	2017
url	https://doaj.org/article/b51b984e0c19410db97859d79257ccb7
work_keys_str_mv	AT davidejwaddington nanodiamondenhancedmriviainsituhyperpolarization AT mathieusarracanie nanodiamondenhancedmriviainsituhyperpolarization AT huiliangzhang nanodiamondenhancedmriviainsituhyperpolarization AT najatsalameh nanodiamondenhancedmriviainsituhyperpolarization AT davidrglenn nanodiamondenhancedmriviainsituhyperpolarization AT ewarej nanodiamondenhancedmriviainsituhyperpolarization AT torstengaebel nanodiamondenhancedmriviainsituhyperpolarization AT thomasboele nanodiamondenhancedmriviainsituhyperpolarization AT ronaldlwalsworth nanodiamondenhancedmriviainsituhyperpolarization AT davidjreilly nanodiamondenhancedmriviainsituhyperpolarization AT matthewsrosen nanodiamondenhancedmriviainsituhyperpolarization
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Nanodiamond-enhanced MRI via in situ hyperpolarization

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