Dynamic nuclear polarisation
Encyclopedia
Dynamic nuclear polarization (DNP)

results from transferring spin polarization from electrons to nuclei, thereby aligning the nuclear spins to the extent that electron spins are aligned. Note that the alignment of electron spins at a given magnetic field and temperature is described by the Boltzmann distribution under the thermal equilibrium (see figure). It is also possible that those electrons are aligned to a higher degree of order by other preparations of electron spin order such as: chemical reactions (leading to Chemical-Induced DNP, CIDNP
CIDNP
CIDNP , often pronounced like "kidnap", is a non-Boltzmann nuclear spin state distribution produced in thermal or photochemical reactions, usually from colligation and diffusion, or disproportionation of radical pairs, and detected by NMR spectroscopy as enhanced absorption or emission signals...

), optical pumping and spin injection. DNP is considered one of several techniques for hyperpolarization
Hyperpolarization (physics)
Hyperpolarization is the nuclear spin polarization of a material far beyond thermal equilibrium conditions. It is commonly applied to gases such as 129Xe and 3He which are then used, for instance, in hyperpolarized magnetic resonance imaging of the lungs....

.

]

When electron spin polarization deviates from its thermal equilibrium value, polarization transfers between electrons and nuclei can occur spontaneously through electron-nuclear cross relaxation and/or spin-state mixing among electrons and nuclei. For example, the polarization transfer is spontaneous after a homolysis
Homolysis
In general it means breakdown to equal pieces There are separate meanings for the word in chemistry and biology.-Homolysis in chemistry:...

 chemical reaction. On the other hand, when the electron spin system is in a thermal equilibrium, the polarization transfer requires continuous microwave irradiation at a frequency close to the corresponding electron paramagnetic resonance
Electron paramagnetic resonance
Electron paramagnetic resonance or electron spin resonance spectroscopyis a technique for studying chemical species that have one or more unpaired electrons, such as organic and inorganic free radicals or inorganic complexes possessing a transition metal ion...

 (EPR) frequency. In particular, mechanisms for the microwave-driven DNP processes are categorized into the Overhauser effect (OE), the solid-effect (SE), the cross-effect (CE) and thermal-mixing (TM).

The first DNP experiments were performed in the early 1950s at low magnetic fields

, but until recently the technique was of limited applicability for high-frequency, high-field NMR spectroscopy, because of the lack of microwave (terahertz) sources operating at the appropriate frequency. Today such sources are available as turn-key instruments, making DNP a valuable and indispensable method especially in the field of structure determination by high-resolution solid-state NMR spectroscopy

.

The Overhauser Effect

DNP was first realized using the concept of the Overhauser effect, which is the perturbation of nuclear spin level populations observed in metals and free radicals when electron spin transitions are saturated by the microwave irradiation. This effect relies on stochastic interactions between an electron and a nucleus. The 'dynamic' initially meant to highlight the time-dependent and random interactions in this polarization transfer process.

The DNP phenomenon was theoretically predicted by Albert Overhauser
Albert Overhauser
Albert W. Overhauser is an American physicist and member of the National Academy of Sciences. He is best known for his theory of dynamic nuclear polarization, also known as the Overhauser Effect....

 in 1953 and initially drew some criticism from Norman Ramsey, Felix Bloch
Felix Bloch
Felix Bloch was a Swiss physicist, working mainly in the U.S.-Life and work:Bloch was born in Zürich, Switzerland to Jewish parents Gustav and Agnes Bloch. He was educated there and at the Eidgenössische Technische Hochschule, also in Zürich. Initially studying engineering he soon changed to physics...

 and other renowned physicists of the time on the grounds of being "thermodynamically improbable". The experimental confirmation by Carver and Slichter
Charles Pence Slichter
Charles Pence Slichter is an American physicist, best known for his work on nuclear magnetic resonance and superconductivity....

 as well as an apologetic letter from Ramsey both reached Overhauser in the same year.

The so-called electron-nucleus cross-relaxation, which is responsible for the DNP phenomenon is caused by rotational and translational modulation of the electron-nucleus hyperfine coupling. The theory of this process is based essentially on the second-order time-dependent perturbation theory
Perturbation theory
Perturbation theory comprises mathematical methods that are used to find an approximate solution to a problem which cannot be solved exactly, by starting from the exact solution of a related problem...

 solution of the von Neumann equation for the spin
Spin (physics)
In quantum mechanics and particle physics, spin is a fundamental characteristic property of elementary particles, composite particles , and atomic nuclei.It is worth noting that the intrinsic property of subatomic particles called spin and discussed in this article, is related in some small ways,...

 density matrix
Density matrix
In quantum mechanics, a density matrix is a self-adjoint positive-semidefinite matrix of trace one, that describes the statistical state of a quantum system...

.

While the Overhauser effect relies on time-dependent electron-nuclear interactions, the remaining polarizing mechanisms rely on time-independent electron-nuclear and electron-electron interactions.

The solid effect

The solid effect occurs when the electron-nucleus mutual flip transition in an electron-nucleus two-spin system is excited by microwave irradiation. This polarizing mechanism is optimal when the exciting microwave frequency shifts up or down by the nuclear Larmor frequency from the electron Larmor frequency in the discussed two-spin system. The direction of frequency shifts corresponds to the sign of DNP enhancements. Therefore, to prevent the canceling between positive and negative DNP enhancements, it requires that the linewidth of the EPR spectrum of involved unpaired electrons is smaller than the nuclear Larmor frequency. Note that the transition moment for the above microwave excitation results from a second-order effect of the electron-nuclear interactions and thus requires stronger microwave power to be significant, and its intensity is decreased by an increase of the external magnetic field B0. As a result, the DNP enhancement from the solid effect scales as B0−2.

The cross effect

The cross effect requires two unpaired electrons as the source of high polarization. While the underlying physics is still of second order nature with respect to the electron-electron and electron-nuclear interactions, the polarizing efficiency can be improved with the optimized EPR frequency separation of the two electrons (close to the nuclear Larmor frequency). As a result, the strength of microwave irradiation is less demanded than that in the solid effect. In practice, the correct EPR frequency separation is accomplished through random orientation of paramagnetic species with g-anisotropy, depending on the probability of desired frequency separation from an inhomogeneously broadened EPR lineshape whose linewidth is broader than the nuclear Larmor frequency. Therefore, as this linewidth is proportional to external magnetic field B0, the overall DNP efficiency (or the enhancement of nuclear polarization) scales as B0−1.

Thermal mixing

Thermal mixing is an energy exchange phenomena between the electron spin ensemble and the nuclear spin, which can be thought of as using multiple electron spins to provide hyper nuclear polarization. Note that the electron spin ensemble acts as a whole because of stronger inter-electron interactions. The strong interactions lead to a homogeneously broadened EPR lineshape of the involved paramagnetic species. The linewidth is optimized for polarization transfer from electrons to nuclei, when it is close to the nuclear Larmor frequency. The optimization is related to an embedded three-spin (electron-electron-nucleus) process that mutually flips the coupled three spins under the energy conservation (mainly) of the Zeeman interactions. Due to the inhomogeneous component of the associated EPR lineshape, the DNP enhancement by this mechanism also scales as B0−1.

Reviews

  • Mark Lingwood and Songi Han, "Solution-state Dynamic Nuclear Polarization", Ann. Repts. NMR Spectrosc., 2011. 73: p. 83–126. (Link to article)
  • Thorsten Maly et al., "Dynamic nuclear polarization at high magnetic fields", J. Chem. Phys., 2008. 128(5): p. 052211-19 (Link to article)
  • Jyllian Kemsley, "Sensitizing NMR", CE&N, 2008. 86(43): p. 12-15 (Link to article)
  • Alexander Barnes et al., "High-Field Dynamic Nuclear Polarization for Solid and Solution Biological NMR", Appl. Magn. Reson., 2008. 34(3): p. 237-263 (Link to article)
  • Anatole Abragam and Marice Goldman, "Principles of dynamic nuclear polarisation", Rep. Prog. Phys., 1978. 41(3): p. 395-467 (Link to article)
  • Stefan Goertz, "The dynamic nuclear polarization process", Nucl. Instrum. Methods Phys. Res., Sect. A, 2004. 526(1-2): p. 28-42 (Link to article)
  • Vadim Atsarkin, "Dynamic Polarization of Nuclei in Solid Dielectrics", Sov. Phys. Usp. (English translation), 1978. 21(9): p. 725-745 (Link to article)
  • Robert Wind et al., "Applications of dynamic nuclear polarization in 13C NMR in solids", Prog. NMR. Spec., 1985. 17: p. 33-67 (Link to article)

Books

  • Carson Jeffries, "Dynamic Nuclear Orientation", New York, Interscience Publishers, 1963
  • Anatole Abragam and Maurice Goldman, "Nuclear Magnetism: Order and Disorder", New York : Oxford University Press, 1982

Special Issues

  • Dynamic Nuclear Polarization: New Experimental and Methodology Approaches and Applications in Physics, Chemistry, Biology and Medicine, Appl. Magn. Reson., 2008. 34(3-4) (Link to issue)
  • High field dynamic nuclear polarization - the renaissance, Phys. Chem. Chem. Phys., 2010. 12(22) (Link to issue)
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