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Long-Lived 13C2 Nuclear Spin States Hyperpolarized by Parahydrogen in Reversible Exchange at Microtesla Fields.

Publication ,  Journal Article
Zhou, Z; Yu, J; Colell, JFP; Laasner, R; Logan, A; Barskiy, DA; Shchepin, RV; Chekmenev, EY; Blum, V; Warren, WS; Theis, T
Published in: The journal of physical chemistry letters
July 2017

Parahydrogen is an inexpensive and readily available source of hyperpolarization used to enhance magnetic resonance signals by up to four orders of magnitude above thermal signals obtained at ∼10 T. A significant challenge for applications is fast signal decay after hyperpolarization. Here we use parahydrogen-based polarization transfer catalysis at microtesla fields (first introduced as SABRE-SHEATH) to hyperpolarize 13C2 spin pairs and find decay time constants of 12 s for magnetization at 0.3 mT, which are extended to 2 min at that same field, when long-lived singlet states are hyperpolarized instead. Enhancements over thermal at 8.5 T are between 30 and 170 fold (0.02 to 0.12% polarization). We control the spin dynamics of polarization transfer by choice of microtesla field, allowing for deliberate hyperpolarization of either magnetization or long-lived singlet states. Density functional theory calculations and experimental evidence identify two energetically close mechanisms for polarization transfer: First, a model that involves direct binding of the 13C2 pair to the polarization transfer catalyst and, second, a model transferring polarization through auxiliary protons in substrates.

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Published In

The journal of physical chemistry letters

DOI

EISSN

1948-7185

ISSN

1948-7185

Publication Date

July 2017

Volume

8

Issue

13

Start / End Page

3008 / 3014

Related Subject Headings

  • 51 Physical sciences
  • 34 Chemical sciences
  • 03 Chemical Sciences
  • 02 Physical Sciences
 

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Zhou, Z., Yu, J., Colell, J. F. P., Laasner, R., Logan, A., Barskiy, D. A., … Theis, T. (2017). Long-Lived 13C2 Nuclear Spin States Hyperpolarized by Parahydrogen in Reversible Exchange at Microtesla Fields. The Journal of Physical Chemistry Letters, 8(13), 3008–3014. https://doi.org/10.1021/acs.jpclett.7b00987
Zhou, Zijian, Jin Yu, Johannes F. P. Colell, Raul Laasner, Angus Logan, Danila A. Barskiy, Roman V. Shchepin, et al. “Long-Lived 13C2 Nuclear Spin States Hyperpolarized by Parahydrogen in Reversible Exchange at Microtesla Fields.The Journal of Physical Chemistry Letters 8, no. 13 (July 2017): 3008–14. https://doi.org/10.1021/acs.jpclett.7b00987.
Zhou Z, Yu J, Colell JFP, Laasner R, Logan A, Barskiy DA, et al. Long-Lived 13C2 Nuclear Spin States Hyperpolarized by Parahydrogen in Reversible Exchange at Microtesla Fields. The journal of physical chemistry letters. 2017 Jul;8(13):3008–14.
Zhou, Zijian, et al. “Long-Lived 13C2 Nuclear Spin States Hyperpolarized by Parahydrogen in Reversible Exchange at Microtesla Fields.The Journal of Physical Chemistry Letters, vol. 8, no. 13, July 2017, pp. 3008–14. Epmc, doi:10.1021/acs.jpclett.7b00987.
Zhou Z, Yu J, Colell JFP, Laasner R, Logan A, Barskiy DA, Shchepin RV, Chekmenev EY, Blum V, Warren WS, Theis T. Long-Lived 13C2 Nuclear Spin States Hyperpolarized by Parahydrogen in Reversible Exchange at Microtesla Fields. The journal of physical chemistry letters. 2017 Jul;8(13):3008–3014.
Journal cover image

Published In

The journal of physical chemistry letters

DOI

EISSN

1948-7185

ISSN

1948-7185

Publication Date

July 2017

Volume

8

Issue

13

Start / End Page

3008 / 3014

Related Subject Headings

  • 51 Physical sciences
  • 34 Chemical sciences
  • 03 Chemical Sciences
  • 02 Physical Sciences