Ajoy, A., R. Nazaryan, E. Druga, K. Liu, A. Aguilar, B. Han, M. Gierth, et al. “Room Temperature Optical Nanodiamond Hyperpolarizer: Physics, Design, and Operation.” Review of Scientific Instruments 91, no. 2 (February 1, 2020): 023106.
Dynamic Nuclear Polarization (DNP) is a powerful suite of techniques that deliver multifold signal enhancements in nuclear magnetic resonance (NMR) and MRI. The generated athermal spin states can also be exploited for quantum sensing and as probes for many-body physics. Typical DNP methods require the use of cryogens, large magnetic fields, and high power microwave excitation, which are expensive and unwieldy. Nanodiamond particles, rich in Nitrogen-Vacancy (NV) centers, have attracted attention as alternative DNP agents because they can potentially be optically hyperpolarized at room temperature. Here, unraveling new physics underlying an optical DNP mechanism first introduced by Ajoy et al. [Sci. Adv. 4, eaar5492 (2018)], we report the realization of a miniature “optical nanodiamond hyperpolarizer,” where 13C nuclei within the diamond particles are hyperpolarized via the NV centers. The device occupies a compact footprint and operates at room temperature. Instrumental requirements are very modest: low polarizing fields, low optical and microwave irradiation powers, and convenient frequency ranges that enable miniaturization. We obtain the best reported optical 13C hyperpolarization in diamond particles exceeding 720 times of the thermal 7 T value (0.86% bulk polarization), corresponding to a ten-million-fold gain in averaging time to detect them by NMR. In addition, the hyperpolarization signal can be background-suppressed by over two-orders of magnitude, retained for multiple-minute long periods at low fields, and deployed efficiently even to 13C enriched particles. Besides applications in quantum sensing and bright-contrast MRI imaging, this work opens possibilities for low-cost room-temperature DNP platforms that relay the 13C polarization to liquids in contact with the high surface-area particles.
Nanodiamond as a New Hyperpolarizing Agent and Its 13C MRS #DNPNMR
From The DNP-NMR Blog:
Nanodiamond as a New Hyperpolarizing Agent and Its 13C MRS #DNPNMR
Dutta, Prasanta, Gary V. Martinez, and Robert J. Gillies. “Nanodiamond as a New Hyperpolarizing Agent and Its 13C MRS.” The Journal of Physical Chemistry Letters 5, no. 3 (February 6, 2014): 597–600.
https://doi.org/10.1021/jz402659t
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06-07-2018 01:44 AM
Transferred Overhauser DNP: A Fast, Efficient Approach for Room Temperature 13C ODNP at Moderately Low Fields and Natural Abundance #DNPNMR
From The DNP-NMR Blog:
Transferred Overhauser DNP: A Fast, Efficient Approach for Room Temperature 13C ODNP at Moderately Low Fields and Natural Abundance #DNPNMR
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Dey, A., A. Banerjee, and N. Chandrakumar, Transferred Overhauser DNP: A Fast, Efficient Approach for Room Temperature 13C ODNP at Moderately Low Fields and Natural Abundance. The Journal of Physical Chemistry B, 2017. 121(29): p. 7156-7162.
https://www.ncbi.nlm.nih.gov/pubmed/28658577
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11-21-2017 03:50 AM
Hyperpolarized Nanodiamond Surfaces #DNPNMR
From The DNP-NMR Blog:
Hyperpolarized Nanodiamond Surfaces #DNPNMR
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Rej, E., et al., Hyperpolarized Nanodiamond Surfaces. J Am Chem Soc, 2017. 139(1): p. 193-199.
https://www.ncbi.nlm.nih.gov/pubmed/28009158
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02-15-2017 03:40 PM
Solid-State Dynamic Nuclear Polarization at 9.4 and 18.8 T from 100 K to Room Temperature
From The DNP-NMR Blog:
Solid-State Dynamic Nuclear Polarization at 9.4 and 18.8 T from 100 K to Room Temperature
This is an incredible article. It shows the temperature dependence of the DNP enhancement over a wide temperature regime. Most importantly it shows that at room temperature still an enhancement of 15-20 can be achieved.
Just a few years ago the common believe was that solid-state MAS-DNP experiments have to be performed at 90 K or below. This article clearly demonstrates that there is still so much room for improvements of DNP. I think the most exciting moments in DNP are...
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03-04-2016 10:23 PM
Room temperature hyperpolarization of nuclear spins in bulk
From The DNP-NMR Blog:
Room temperature hyperpolarization of nuclear spins in bulk
Tateishi, K., et al., Room temperature hyperpolarization of nuclear spins in bulk. Proc Natl Acad Sci U S A, 2014. 111(21): p. 7527-30.
http://www.ncbi.nlm.nih.gov/pubmed/24821773
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08-19-2015 03:24 PM
Room temperature hyperpolarization of nuclear spins in bulk
From The DNP-NMR Blog:
Room temperature hyperpolarization of nuclear spins in bulk
Tateishi, K., et al., Room temperature hyperpolarization of nuclear spins in bulk. Proc. Nat. Aca. Sci. USA, 2014. 111(21): p. 7527-7530.
http://www.pnas.org/content/111/21/7527.abstract
Dynamic nuclear polarization (DNP), a means of transferring spin polarization from electrons to nuclei, can enhance the nuclear spin polarization (hence the NMR sensitivity) in bulk materials at most 660 times for 1H spins, using electron spins in thermal equilibrium as polarizing agents. By using electron spins...
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07-12-2014 04:28 AM
Proton polarization in photo-excited aromatic molecule at room temperature enhanced by intense optical source and temperature control
From The DNP-NMR Blog:
Proton polarization in photo-excited aromatic molecule at room temperature enhanced by intense optical source and temperature control
Sakaguchi, S., et al., Proton polarization in photo-excited aromatic molecule at room temperature enhanced by intense optical source and temperature control. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2013. 317(0): p. 679-684.
http://www.sciencedirect.com/science/article/pii/S0168583X13008872
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01-23-2014 01:37 AM
Proton polarization in photo-excited aromatic molecule at room temperature enhanced by intense optical source and temperature control
From The DNP-NMR Blog:
Proton polarization in photo-excited aromatic molecule at room temperature enhanced by intense optical source and temperature control
Sakaguchi, S., et al., Proton polarization in photo-excited aromatic molecule at room temperature enhanced by intense optical source and temperature control. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2013(0).
http://www.sciencedirect.com/science/article/pii/S0168583X13008872
Room temperature optical nanodiamond hyperpolarizer: Physics, design, and operation #DNPNMR
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