Identification and Conformational Study of Stable Radiation-Induced Defects in Sucrose Single Crystals using Density Functional Theory Calculations of Electron Magnetic Resonance Parameters

Cooman, Hendrik De; Pauwels, Ewald; Vrielinck, Henk; Sagstuen, Einar; Callens, Freddy; Waroquier, Michel

doi:10.1021/jp712004g

Cited by 27 publications

(74 citation statements)

References 51 publications

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“…The molecular structure and geometry of the latter may differ considerably from those of the intact molecules, even in the solid state (crystals). This was recently convincingly established for sucrose single crystals, where all three dominant stable radicals were shown to involve glycosidic bond rupture and carbonyl formation on a carbon atom adjacent to the main site of unpaired electron density 7,14,15 . A prominent radical in glucose-1-phosphate, detected at 77K after in situ Xirradiation at 77 K, was also found to display these characteristics 16,17 .…”

Section: Introductionmentioning

confidence: 68%

Determination of the g Tensors for the Dominant Stable Radicals in X-Irradiated β-d-Fructose Single Crystals

et al. 2009

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In spite of recent successful identifications of radicals produced after X-ray irradiation at 10 K and 77 K in β-D-fructose, the structure of the two stable radicals dominating the electron paramagnetic resonance (EPR) spectrum after room temperature irradiation is still unclear. Based on the agreement between proton hyperfine (HF) tensors obtained in electron nuclear double resonance (ENDOR) experiments and the results of single molecule density functional calculations, a model for these radicals, involving OH abstraction at the C2 ring position, had previously been proposed, but this assignment could not be confirmed when the radical was embedded in a crystal environment. In this paper, we therefore provide additional experimental information for these radicals. First, their g tensors are determined from angular dependent ENDOR-induced EPR experiments.The relatively large anisotropy of these tensors is indicative of delocalization of the unpaired electron onto a neighboring oxygen atom. Second, EPR spectra of fructose powders, selectively enriched in 13 C on various ring positions, are presented, demonstrating that the HF interaction with the carbon atom C3 is larger than with the C2.Combining the g tensor, proton and 13 C HF data, we conclude that the structure of the stable radicals differs strongly from that of intact molecules and that further advanced quantum chemical modeling will be required to fully identify them.

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Section: Introductionmentioning

confidence: 68%

Determination of the g Tensors for the Dominant Stable Radicals in X-Irradiated β-d-Fructose Single Crystals

et al. 2009

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“…It was verified that periodic cell sizes larger than about 1 nm along each crystal axis do no longer demonstrate influences of interactions between radicals in periodic images (see e.g. [8]). As opposed to single molecule and cluster calculations, no constraints on atomic relaxations have to be imposed in this type of calculations.…”

Section: Dft Calculations : Evolving Methodologymentioning

confidence: 99%

“…In these first attempts to properly take into account the full lattice environment of the radical, SH parameter calculations were still performed on clusters cut out of the periodically optimized structure, because g and HF tensors reflect local properties, which are known not to be well reproduced by plane wave basis sets [8,9,14,[17][18][19]55]. A further major improvement in the calculations came from the implementation of HF [98] and g tensor calculations [99,100] in periodic codes (CP2K) using Gaussian and augmented plane wave basis sets.…”

Section: Dft Calculations : Evolving Methodologymentioning

confidence: 99%

“…Also these two radicals have two more pronounced HF interactions, which are strongly overlapping at this particular field orientation and for this reason are not indicated in the FF-ENDOR spectrum. The T1-T3 radicals have been thoroughly characterized through angular dependent EPR and ENDOR measurements [55] and detailed molecular models were found for them, based on DFT calculations (see Section 6.3.4) [8,9]. They constitute the dominant contribution to the central part of the powder EPR spectrum of irradiated sucrose (see Section 6.4.5).…”

Section: Epr Endor and Endor-induced Epr Experimentsmentioning

confidence: 99%

“…However, only some five years ago the identity of three radicals, dominating the room temperature (RT) stable electron paramagnetic resonance (EPR) spectrum, was convincingly established [8,9]. This resulted primarily from a detailed comparison of proton hyperfine (HF) interactions, determined from single crystal electron nuclear double resonance (ENDOR) experiments, with the results of highlevel density functional theory (DFT) calculations.…”

Section: Introduction and Motivation Of The Studymentioning

confidence: 99%

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Radiation Chemistry of Solid-State Carbohydrates Using EMR

Vrielinck

Cooman

Callens

et al. 2014

Applications of EPR in Radiation Research

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We review our research of the past decade towards identification of radiation-induced radicals in solid state sugars and sugar phosphates. Detailed models of the radical structures are obtained by combining EPR and ENDOR experiments with DFT calculations of g and proton HF tensors, with agreement in their anisotropy serving as most important criterion. Symmetry-related and Schonland ambiguities, which may hamper such identification, are reviewed. Thermally induced transformations of initial radiation damage into more stable radicals can also be monitored in the EPR (and ENDOR) experiments and in principle provide information on stable radical formation mechanisms. Thermal annealing experiments reveal, however, that radical recombination and/or diamagnetic radiation damage is also quite important. Analysis strategies are illustrated with research on sucrose. Results on dipotassium glucose-1-phosphate and trehalose dihydrate, fructose and sorbose are also briefly discussed. Our study demonstrates that radiation damage is strongly regio-selective and that certain general principles govern the stable radical formation.

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