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Paper detail

Hyperpolarized Nanodiamond Surfaces

The widespread use of nanodiamond as a biomedical platform for drug-delivery, imaging, and sub-cellular tracking applications stems from their non-toxicity and unique quantum mechanical properties. Here, we extend this functionality to the domain of magnetic resonance, by demonstrating that the intrinsic electron spins on the nanodiamond surface can be used to hyperpolarize adsorbed liquid compounds at room temperature. By combining relaxation measurements with hyperpolarization, spins on the surface of the nanodiamond can be distinguished from those in the bulk liquid. These results are likely of use in signaling the controlled release of pharmaceutical payloads.

preprint2016arXivOpen access
Ewa RejTorsten GaebelDavid E. J. WaddingtonDavid J. Reilly
cond-mat.mes-hall
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Ewa RejTorsten GaebelDavid E. J. WaddingtonDavid J. Reilly

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