Polarizing agents are typically dispersed in glass forming solvents to avoid clustering of the radicals which can lead to strong exchange interaction resulting in poor DNP efficiency. Therefore glycerol (or DMSO) is often added to the aqueous solution.
These polarizing beads are very interesting because they potentially allow DNP using solvents that do not inherently form a glass. It would be really interesting to see how efficient this approach is for TEMPO based radicals. In addition these beads allow optimizing the local environment of the radical (for example to optimize relaxation properties) for optimum DNP performance independently from the sample properties.
Zhang, Y., P.J. Baker, and L.B. Casabianca, BDPA-Doped Polystyrene Beads as Polarization Agents for DNP-NMR. J Phys Chem B, 2015.
The aromatic free radical BDPA (alpha,gamma-bisdiphenylene-beta-phenylallyl), which has been widely used as a polarizing agent for Dynamic Nuclear Polarization (DNP) of hydrophobic analytes, has been incorporated into nanometer-scale polystyrene latex beads. We have shown that the resulting BDPA-doped beads can be used to hyperpolarize 13C and 7Li nuclei in aqueous environments, without the need for a glassing cosolvent. DNP enhancement factors of between 20 and 100 were achieved with overall BDPA concentrations of 2 mM or less. These Highly-Effective Polymer/Radical Beads (HYPR-beads) have potential use as an inexpensive polarizing agent for water-soluble analytes, and also have applications as model nanoparticles in DNP studies.
A benzyl alcohol derivative of the BDPA radical for fast dissolution dynamic nuclear polarization NMR spectroscopy
From The DNP-NMR Blog:
A benzyl alcohol derivative of the BDPA radical for fast dissolution dynamic nuclear polarization NMR spectroscopy
Munoz-Gomez, J.L., et al., A benzyl alcohol derivative of the BDPA radical for fast dissolution dynamic nuclear polarization NMR spectroscopy. Org Biomol Chem, 2015. 13(9): p. 2689-93.
http://www.ncbi.nlm.nih.gov/pubmed/25586215
Dynamic Nuclear Polarization NMR of Low-? Nuclei: Structural Insights into Hydrated Yttrium-Doped BaZrO3
From The DNP-NMR Blog:
Dynamic Nuclear Polarization NMR of Low-? Nuclei: Structural Insights into Hydrated Yttrium-Doped BaZrO3
Blanc, F., et al., Dynamic Nuclear Polarization NMR of Low-? Nuclei: Structural Insights into Hydrated Yttrium-Doped BaZrO3. The Journal of Physical Chemistry Letters, 2014: p. 2431-2436.
http://dx.doi.org/10.1021/jz5007669
nmrlearner
News from NMR blogs
0
07-04-2014 08:28 PM
Highly Efficient, Water-Soluble Polarizing Agents for Dynamic Nuclear Polarization at High Frequency
From The DNP-NMR Blog:
Highly Efficient, Water-Soluble Polarizing Agents for Dynamic Nuclear Polarization at High Frequency
Sauvee, C., et al., Highly Efficient, Water-Soluble Polarizing Agents for Dynamic Nuclear Polarization at High Frequency. Angew Chem Int Ed Engl, 2013. 52(41): p. 10858-10861.
http://www.ncbi.nlm.nih.gov/pubmed/23956072
nmrlearner
News from NMR blogs
0
01-24-2014 11:26 PM
Highly Efficient, Water-Soluble Polarizing Agents for Dynamic Nuclear Polarization at High Frequency
From The DNP-NMR Blog:
Highly Efficient, Water-Soluble Polarizing Agents for Dynamic Nuclear Polarization at High Frequency
Sauvee, C., et al., Highly Efficient, Water-Soluble Polarizing Agents for Dynamic Nuclear Polarization at High Frequency. Angew Chem Int Ed Engl, 2013. 52(41): p. 10858-10861.
http://www.ncbi.nlm.nih.gov/pubmed/23956072
nmrlearner
News from NMR blogs
0
11-22-2013 03:09 PM
Achievement of high nuclear spin polarization using lanthanides as low-temperature NMR relaxation agents
From The DNP-NMR Blog:
Achievement of high nuclear spin polarization using lanthanides as low-temperature NMR relaxation agents
Peat, D.T., et al., Achievement of high nuclear spin polarization using lanthanides as low-temperature NMR relaxation agents. Phys. Chem. Chem. Phys., 2013. 15(20): p. 7586-7591.
http://www.ncbi.nlm.nih.gov/pubmed/23588269
nmrlearner
News from NMR blogs
0
06-17-2013 06:41 PM
Deuterium Magic Angle Spinning NMR Used to Study the Dynamics of Peptides Adsorbed onto Polystyrene and Functionalized Polystyrene Surfaces.
Deuterium Magic Angle Spinning NMR Used to Study the Dynamics of Peptides Adsorbed onto Polystyrene and Functionalized Polystyrene Surfaces.
Deuterium Magic Angle Spinning NMR Used to Study the Dynamics of Peptides Adsorbed onto Polystyrene and Functionalized Polystyrene Surfaces.
J Phys Chem B. 2011 Jun 8;
Authors: Breen NF, Li K, Olsen GL, Drobny GP
LK?14 is a 14 amino acid peptide which displays a periodic alternation of leucine and lysine amino acids. This "hydrophobic periodicity" has been found to result in an ?-helical secondary structure...
BDPA-Doped Polystyrene Beads as Polarization Agents for DNP-NMR
Linear Mode
