An Alderman–Grant resonator for S-Band Dynamic Nuclear Polarization

[Display omitted] •An Alderman–Grant resonator for Dynamic Nuclear Polarization at 73mT was developed.•Electron spin saturation efficiency and sample heating effects were investigated.•Resonator provides small size, small sample heating and increased sample volume.•Satisfactory DNP enhancements of −...

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Veröffentlicht in:	Journal of magnetic resonance (1997) 2014-05, Vol.242, p.79-85
Hauptverfasser:	Neudert, Oliver, Raich, Hans-Peter, Mattea, Carlos, Stapf, Siegfried, Münnemann, Kerstin
Format:	Artikel
Sprache:	eng
Schlagworte:	Alderman–Grant resonator Bores Dynamic Nuclear Polarization Dynamics Field cycling NMR Heating Hyperpolarization Low field NMR Magnetic resonance Nuclear magnetic resonance Overhauser DNP Polarization Relaxometry Resonators Saturation Time domain NMR
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container_title	Journal of magnetic resonance (1997)
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creator	Neudert, Oliver Raich, Hans-Peter Mattea, Carlos Stapf, Siegfried Münnemann, Kerstin
description	[Display omitted] •An Alderman–Grant resonator for Dynamic Nuclear Polarization at 73mT was developed.•Electron spin saturation efficiency and sample heating effects were investigated.•Resonator provides small size, small sample heating and increased sample volume.•Satisfactory DNP enhancements of −150 were obtained for a TEMPOL/water sample.•The DNP setup was combined with a fast field cycling NMR relaxometer. An Alderman–Grant resonator with resonance at 2GHz (S-Band) was simulated, developed and constructed for Dynamic Nuclear Polarization (DNP) experiments at 73mT. The resonator fits into magnet bores with a minimum diameter of 20mm and is compatible with standard 3mm NMR tubes. The compact resonator design achieves good separation of electric and magnetic fields and therefore can be used with comparatively large sample volumes with only small sample heating effects comparable to those obtained with optimized X- and W-Band DNP setups. The saturation efficiency and sample heating effects were investigated for Overhauser DNP experiments of aqueous solutions of TEMPOL radical, showing relative saturation better than 0.9 and sample heating not exceeding a few Kelvin even at high microwave power and long irradiation time. An application is demonstrated, combining the DNP setup with a commercial fast field cycling NMR relaxometer. Using this resonator design at low microwave frequencies can provide DNP polarization for a class of low-field and time-domain NMR experiments and therefore may enable new applications that benefit from increased sensitivity.
doi_str_mv	10.1016/j.jmr.2014.02.001
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An Alderman–Grant resonator with resonance at 2GHz (S-Band) was simulated, developed and constructed for Dynamic Nuclear Polarization (DNP) experiments at 73mT. The resonator fits into magnet bores with a minimum diameter of 20mm and is compatible with standard 3mm NMR tubes. The compact resonator design achieves good separation of electric and magnetic fields and therefore can be used with comparatively large sample volumes with only small sample heating effects comparable to those obtained with optimized X- and W-Band DNP setups. The saturation efficiency and sample heating effects were investigated for Overhauser DNP experiments of aqueous solutions of TEMPOL radical, showing relative saturation better than 0.9 and sample heating not exceeding a few Kelvin even at high microwave power and long irradiation time. An application is demonstrated, combining the DNP setup with a commercial fast field cycling NMR relaxometer. 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An Alderman–Grant resonator with resonance at 2GHz (S-Band) was simulated, developed and constructed for Dynamic Nuclear Polarization (DNP) experiments at 73mT. The resonator fits into magnet bores with a minimum diameter of 20mm and is compatible with standard 3mm NMR tubes. The compact resonator design achieves good separation of electric and magnetic fields and therefore can be used with comparatively large sample volumes with only small sample heating effects comparable to those obtained with optimized X- and W-Band DNP setups. The saturation efficiency and sample heating effects were investigated for Overhauser DNP experiments of aqueous solutions of TEMPOL radical, showing relative saturation better than 0.9 and sample heating not exceeding a few Kelvin even at high microwave power and long irradiation time. An application is demonstrated, combining the DNP setup with a commercial fast field cycling NMR relaxometer. 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An Alderman–Grant resonator with resonance at 2GHz (S-Band) was simulated, developed and constructed for Dynamic Nuclear Polarization (DNP) experiments at 73mT. The resonator fits into magnet bores with a minimum diameter of 20mm and is compatible with standard 3mm NMR tubes. The compact resonator design achieves good separation of electric and magnetic fields and therefore can be used with comparatively large sample volumes with only small sample heating effects comparable to those obtained with optimized X- and W-Band DNP setups. The saturation efficiency and sample heating effects were investigated for Overhauser DNP experiments of aqueous solutions of TEMPOL radical, showing relative saturation better than 0.9 and sample heating not exceeding a few Kelvin even at high microwave power and long irradiation time. An application is demonstrated, combining the DNP setup with a commercial fast field cycling NMR relaxometer. 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subjects	Alderman–Grant resonator Bores Dynamic Nuclear Polarization Dynamics Field cycling NMR Heating Hyperpolarization Low field NMR Magnetic resonance Nuclear magnetic resonance Overhauser DNP Polarization Relaxometry Resonators Saturation Time domain NMR
title	An Alderman–Grant resonator for S-Band Dynamic Nuclear Polarization
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