Radiofrequency fields in MAS solid state NMR probes.
J Magn Reson. 2017 Sep 06;284:20-32
Authors: Tošner Z, Purea A, Struppe JO, Wegner S, Engelke F, Glaser SJ, Reif B
Abstract
We present a detailed analysis of the radiofrequency (RF) field over full volume of a rotor that is generated in a solenoid coil. On top of the usually considered static distribution of amplitudes along the coil axis we describe dynamic radial RF inhomogeneities induced by sample rotation. During magic angle spinning (MAS), the mechanical rotation of the sample about the magic angle, a spin packet travels through areas of different RF fields and experiences periodical modulations of both the RF amplitude and the phase. These modulations become particularly severe at the end regions of the coil where the relative RF amplitude varies up to ±25% and the RF phase changes within ±30°. Using extensive numerical simulations we demonstrate effects of RF inhomogeneity on pulse calibration and for the ramped CP experiment performed at a wide range of MAS rates. In addition, we review various methods to map RF fields using a B0 gradient along the sample (rotor axis) for imaging purposes. Under such a gradient, a nutation experiment provides directly the RF amplitude distribution, a cross polarization experiment images the correlation of the RF fields on the two channels according to the Hartmann-Hahn matching condition, while a spin-lock experiment allows to calibrate the RF amplitude employing the rotary resonance recoupling condition. Knowledge of the RF field distribution in a coil provides key to understand its effects on performance of a pulse sequence at the spectrometer and enables to set robustness requirements in the experimental design.
PMID: 28946058 [PubMed - as supplied by publisher]
[NMR paper] A suite of pulse sequences based on multiple sequential acquisitions at one and two radiofrequency channels for solid-state magic-angle spinning NMR studies of proteins.
A suite of pulse sequences based on multiple sequential acquisitions at one and two radiofrequency channels for solid-state magic-angle spinning NMR studies of proteins.
A suite of pulse sequences based on multiple sequential acquisitions at one and two radiofrequency channels for solid-state magic-angle spinning NMR studies of proteins.
J Biomol NMR. 2016 Jun 30;
Authors: Sharma K, Madhu PK, Mote KR
Abstract
One of the fundamental challenges in the application of solid-state NMR is its limited sensitivity, yet a majority of...
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07-02-2016 07:23 PM
A suite of pulse sequences based on multiple sequential acquisitions at one and two radiofrequency channels for solid-state magic-angle spinning NMR studies of proteins
A suite of pulse sequences based on multiple sequential acquisitions at one and two radiofrequency channels for solid-state magic-angle spinning NMR studies of proteins
Abstract
One of the fundamental challenges in the application of solid-state NMR is its limited sensitivity, yet a majority of experiments do not make efficient use of the limited polarization available. The loss in polarization in a single acquisition experiment is mandated by the need to select out a single coherence pathway. In contrast, sequential acquisition strategies can encode...
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07-01-2016 03:06 AM
[NMR paper] Protein Dynamics in the Solid-State from 2H NMR Lineshape Analysis. II: MOMD Applied to C-D, and C-CD3 Probes.
Protein Dynamics in the Solid-State from 2H NMR Lineshape Analysis. II: MOMD Applied to C-D, and C-CD3 Probes.
Related Articles Protein Dynamics in the Solid-State from 2H NMR Lineshape Analysis. II: MOMD Applied to C-D, and C-CD3 Probes.
J Phys Chem B. 2015 Sep 24;
Authors: Meirovitch E, Liang Z, Freed JH
Abstract
Deuterium lineshape analysis from mobile C?-D and C-?CD3 groups has emerged as a particularly useful tool for studying dynamics in the solid-state. The theoretical models devised so far consist typically of sets...
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09-26-2015 05:13 AM
[NMR paper] Optimization of cross-polarization at low radiofrequency fields for sensitivity enhancement in solid-state NMR of membrane proteins reconstituted in magnetically aligned bicelles.
Optimization of cross-polarization at low radiofrequency fields for sensitivity enhancement in solid-state NMR of membrane proteins reconstituted in magnetically aligned bicelles.
Optimization of cross-polarization at low radiofrequency fields for sensitivity enhancement in solid-state NMR of membrane proteins reconstituted in magnetically aligned bicelles.
J Magn Reson. 2015 Apr 28;256:14-22
Authors: Koroloff SN, Nevzorov AA
Abstract
Solid-state NMR (ssNMR) of oriented membrane proteins (MPs) is capable of providing...
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05-13-2015 02:01 PM
[NMR paper] Optimization of cross-polarization at low radiofrequency fields for sensitivity enhancement in solid-state NMR of membrane proteins reconstituted in magnetically aligned bicelles
Optimization of cross-polarization at low radiofrequency fields for sensitivity enhancement in solid-state NMR of membrane proteins reconstituted in magnetically aligned bicelles
Publication date: Available online 28 April 2015
Source:Journal of Magnetic Resonance</br>
Author(s): Sophie N. Koroloff , Alexander A. Nevzorov</br>
Solid-state NMR (ssNMR) of oriented membrane proteins (MPs) is capable of providing structural and dynamic information at nearly physiological conditions. However, NMR experiments performed on oriented membrane proteins generally suffer from...
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04-28-2015 12:40 PM
Determination of sample temperature in unstable static fields by combining solid-state 79Br and 13C NMR
From The DNP-NMR Blog:
Determination of sample temperature in unstable static fields by combining solid-state 79Br and 13C NMR
This is not an article about DNP-NMR spectroscopy, however, it deals with the measurements of temperatures in solid-state NMR experiments using KBR and referencing its chemical shift to 13C of adamantane in unstable magnetic fields.
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09-24-2014 06:22 PM
New SBIR award to Bridge12 - NIH Funds Development of THz resonator for solid-state DNP-NMR Probes
From The DNP-NMR Blog:
New SBIR award to Bridge12 - NIH Funds Development of THz resonator for solid-state DNP-NMR Probes
Press Release
NIH Funds Development of THz resonator for solid-state DNP-NMR Probes
SBIR Grant Awarded to Bridge12 for Dynamic Nuclear Polarization
Framingham, Mass. – July 18th, 2013 – Bridge12 Technologies, a leading provider of terahertz (THz) technology for applications in science, medicine, security, and defense, announces it has received a National Institute of Health’s small business innovation research (SBIR) grant for the development of a THz resonator...
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07-19-2013 07:43 AM
[NMR thesis] Solid state NMR at high magnetic fields using multiple pulse techniques
Solid state NMR at high magnetic fields using multiple pulse techniques
Carson, Douglas Glenn (1981) Solid state NMR at high magnetic fields using multiple pulse techniques. Dissertation (Ph.D.), California Institute of Technology. http://resolver.caltech.edu/CaltechETD:etd-10102006-095702
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Radiofrequency fields in MAS solid state NMR probes.
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