Simulating Non‐linear Chemical and Physical (CAP) Dynamics of Signal Amplification By Reversible Exchange (SABRE)

Pravdivtsev, Andrey N.; Hövener, Jan‐Bernd

doi:10.1002/chem.201806133

Cited by 32 publications

(36 citation statements)

References 103 publications

(119 reference statements)

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“…Depending on the simulated experiment, different source operators can be used. Simulations were performed using the MOIN spin library; the source code is available online …”

Section: Resultsmentioning

confidence: 99%

Continuous Radio Amplification by Stimulated Emission of Radiation using Parahydrogen Induced Polarization (PHIP‐RASER) at 14 Tesla

2020

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Nuclear Magnetic Resonance (NMR) is an intriguing quantum‐mechanical effect that is used for routine medical diagnostics and chemical analysis alike. Numerous advancements have contributed to the success of the technique, including hyperpolarized contrast agents that enable real‐time imaging of metabolism in vivo. Herein, we report the finding of an NMR radio amplification by stimulated emission of radiation (RASER), which continuously emits 1H NMR signal for more than 10 min. Using parahydrogen induced hyperpolarization (PHIP) with 50 % para‐hydrogen, we demonstrated the effect at 600 MHz but expect that it is functional across a wide range of frequencies, e.g. 101–103 MHz. PHIP‐RASER occurs spontaneously or can be triggered with a standard NMR excitation. Full chemical shift resolution was maintained, and a linewidth of 0.6 ppb was achieved. The effect was reproduced by simulations using a weakly coupled, two spin‐1/2 system. All devices used were standard issue, such that the effect can be reproduced by any NMR lab worldwide with access to liquid nitrogen for producing parahydrogen.

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“…Depending on the simulated experiment, different source operators can be used. Simulations were performed using the MOIN spin library; the source code is available online …”

Section: Resultsmentioning

confidence: 99%

Continuous Radio Amplification by Stimulated Emission of Radiation using Parahydrogen Induced Polarization (PHIP‐RASER) at 14 Tesla

2020

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“…Hence the results portrayed here detail a route to probe for reaction intermediates in catalysis based on how they affect the evolution of polarisation under SABRE as a function of temperature. While a range of theoretical studies have been reported that detail how the propagation of spin polarisation during SABRE occurs, it is clear that if theoretical predictions 20,30,31,38,39 are to accurately map onto experimental data, 40 they will need to take into account contributions from a range of species in solution. We expect that these results will be of interest to those seeking to model SABRE and those involved more generally in the study of catalysis.…”

Section: Experimental Sabre Resultsmentioning

confidence: 99%

“…4,9,10 Consequently, the efficiency of SABRE is highly dependent on the lifetime of the complex which must match the propagating resonance condition leading to transfer. [11][12][13] It also relies on setting the magnetic field the sample experiences during the transfer step to a value of around 60 G when 1 H nuclei are targeted, but much lower mG fields are needed for 15 N and 13 C nuclei. [14][15][16] Given these constraints, the level of NMR signal enhancement can be improved through catalyst design and by sharing the hyperpolarisation source p-H 2 with fewer receptor spins in conjunction with deuterium labelling which also reduces relaxation effects.…”

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confidence: 99%

A role for low concentration reaction intermediates in the signal amplification by reversible exchange process revealed by theory and experiment

Fekete

Roy

Duckett

2020

Phys. Chem. Chem. Phys.

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“…The role of level‐anti‐crossings in the transfer of polarization has also been explored, and has been shown to be the most efficient at low magnetic fields . Recently, a more simplified approach has been investigated, that takes in to account non‐linear and chemical and physical dynamics to produce a master equation to provide insight in to the SABRE mechanism …”

Section: Resultsmentioning

confidence: 99%

Hyperpolarization of Pyridyl Fentalogues by Signal Amplification By Reversible Exchange (SABRE)

et al. 2019

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Fentanyl, also known as 'jackpot', is a synthetic opiate that is 50-100 times more potent than morphine. Clandestine laboratories produce analogues of fentanyl, known as fentalogues to circumvent legislation regarding its production. Three pyridyl fentalogues were synthesized and then hyperpolarized by signal amplification by reversible exchange (SABRE) to appraise the forensic potential of the technique. A maximum enhancement of -168-fold at 1.4 T was recorded for the ortho pyridyl 1 H nuclei. Studies of the activation parameters for the three fentalogues revealed that the ratio of ligand loss trans to hydride and hydride loss in the complex [Ir(IMes)(L) 3 (H) 2 ] + (IMes = 1,3-bis(2,4,6-trimethylphenyl)imidazole-2-ylidene) ranged from 0.52 to 1.83. The fentalogue possessing the ratio closest to unity produced the largest enhancement subsequent to performing SABRE at earth's magnetic field. It was possible to hyperpolarize a pyridyl fentalogue selectively from a matrix that consisted largely of heroin (97 : 3 heroin:fentalogue) to validate the use of SABRE as a forensic tool.

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Simulating Non‐linear Chemical and Physical (CAP) Dynamics of Signal Amplification By Reversible Exchange (SABRE)

Cited by 32 publications

References 103 publications

Continuous Radio Amplification by Stimulated Emission of Radiation using Parahydrogen Induced Polarization (PHIP‐RASER) at 14 Tesla

Continuous Radio Amplification by Stimulated Emission of Radiation using Parahydrogen Induced Polarization (PHIP‐RASER) at 14 Tesla

A role for low concentration reaction intermediates in the signal amplification by reversible exchange process revealed by theory and experiment

Hyperpolarization of Pyridyl Fentalogues by Signal Amplification By Reversible Exchange (SABRE)

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