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Zero-Field NMR Enhanced by Parahydrogen in Reversible Exchange. Journal of the American Chemical Society. 134(9):3987-3990.
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2012. ![application/pdf](/modules/file/icons/application-pdf.png)
Near-Zero-Field Nuclear Magnetic Resonance. Physical Review Letters. 107(10)
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2011. ![application/pdf](/modules/file/icons/application-pdf.png)
Parahydrogen-enhanced zero-field nuclear magnetic resonance. Nature Physics. 7(7):571-575.
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2011. ![application/pdf](/modules/file/icons/application-pdf.png)
Relaxivity of Gadolinium Complexes Detected by Atomic Magnetometry. Magnetic Resonance in Medicine. 66(2):605-608.
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2011. ![application/pdf](/modules/file/icons/application-pdf.png)
Relaxivity of Gadolinium Complexes Detected by Atomic Magnetometry. Magnetic Resonance in Medicine. 66(2):605-608.
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2011. ![application/pdf](/modules/file/icons/application-pdf.png)
Distortion-free magnetic resonance imaging in the zero-field limit. Journal of Magnetic Resonance. 200(2):285-290.
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2009. ![application/pdf](/modules/file/icons/application-pdf.png)
Optical detection of NMR J-spectra at zero magnetic field. Journal of Magnetic Resonance. 199(1):25-29.
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2009. ![application/pdf](/modules/file/icons/application-pdf.png)
Picomolar sensitivity MRI and photoacoustic imaging of cobalt nanoparticles. Proceedings of the National Academy of Sciences of the United States of America. 106(11):4085-4089.
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2009. ![application/pdf](/modules/file/icons/application-pdf.png)
Remote detection of nuclear magnetic resonance with an anisotropic magnetoresistive sensor. Proceedings of the National Academy of Sciences of the United States of America. 105(7):2271-2273.
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2008. ![application/pdf](/modules/file/icons/application-pdf.png)
Temperature response of (129)Xe depolarization transfer and its application for ultrasensitive NMR detection. Physical Review Letters. 100(25)
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2008. ![application/pdf](/modules/file/icons/application-pdf.png)
Temperature-controlled molecular depolarization gates in nuclear magnetic resonance. Angewandte Chemie-International Edition. 47(23):4316-4320.
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2008. ![application/pdf](/modules/file/icons/application-pdf.png)
Zero-field remote detection of NMR with a microfabricated atomic magnetometer. Proceedings of the National Academy of Sciences of the United States of America. 105(7):2286-2290.
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2008. ![application/pdf](/modules/file/icons/application-pdf.png)
Sensitivity enhancement by exchange mediated magnetization transfer of the xenon biosensor signal. Journal of Magnetic Resonance. 184(1):72-77.
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2007. ![application/pdf](/modules/file/icons/application-pdf.png)
Molecular imaging using a targeted magnetic resonance hyperpolarized biosensor. Science. 314(5798):446-449.
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2006. ![application/pdf](/modules/file/icons/application-pdf.png)
Optimization of xenon biosensors for detection of protein interactions. Chembiochem. 7(1):65-73.
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2006. ![application/pdf](/modules/file/icons/application-pdf.png)
Solid-state NMR structural studies of the fibril form of a mutant mouse prion peptide PrP89-143(P101L). Solid State Nuclear Magnetic Resonance. 29(1-3):183-190.
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2006. ![application/pdf](/modules/file/icons/application-pdf.png)
Spectrally resolved magnetic resonance imaging of a xenon biosensor. Angewandte Chemie-International Edition. 45(1):70-73.
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2006. ![application/pdf](/modules/file/icons/application-pdf.png)
SQUID-detected microtesla MRI in the presence of metal. Journal of Magnetic Resonance. 179(1):146-151.
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2006. ![application/pdf](/modules/file/icons/application-pdf.png)
Xenon biosensor amplification via dendrimer-cage supramolecular constructs. Journal of the American Chemical Society. 128(19):6334-6335.
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2006. ![application/pdf](/modules/file/icons/application-pdf.png)
Distinguishing multiple chemotaxis Y protein conformations with laser-polarized Xe-129 NMR. Protein Science. 14(4):848-855.
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2005. ![application/pdf](/modules/file/icons/application-pdf.png)
NMR-based biosensing with optimized delivery of polarized Xe-129 to solutions. Analytical Chemistry. 77(13):4008-4012.
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2005. ![application/pdf](/modules/file/icons/application-pdf.png)
SQUID-detected in vivo MRI at microtesla magnetic fields. Ieee Transactions on Applied Superconductivity. 15(2):757-760.
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2005. ![application/pdf](/modules/file/icons/application-pdf.png)
SQUID-detected MRI at 132 mu T with T(1)-weighted contrast established at 10 mu T-300 mT. Magnetic Resonance in Medicine. 53(1):9-14.
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