Boris Laurent scite author profile

Boris Laurent

4Publications

77Citation Statements Received

82Citation Statements Given

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Affiliations

Institute of Mineralogy, Materials Physics and Cosmochemistry, University of St Andrews, Unité Matériaux et Transformations

Publications

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The deuterium/hydrogen distribution in chondritic organic matter attests to early ionizing irradiation

et al. 2015

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Primitive carbonaceous chondrites contain a large array of organic compounds dominated by insoluble organic matter (IOM). A striking feature of this IOM is the systematic enrichment in deuterium compared with the solar hydrogen reservoir. This enrichment has been taken as a sign of low-temperature ion-molecule or gas-grain reactions. However, the extent to which Solar System processes, especially ionizing radiation, can affect D/H ratios is largely unknown. Here, we report the effects of electron irradiation on the hydrogen isotopic composition of organic precursors containing different functional groups. From an initial terrestrial composition, overall D-enrichments and differential intramolecular fractionations comparable with those measured in the Orgueil meteorite were induced. Therefore, ionizing radiation can quantitatively explain the deuteration of organics in some carbonaceous chondrites. For these meteorites, the precursors of the IOM may have had the same isotopic composition as the main water reservoirs of the inner Solar System.

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Integrative analytical workflow to enhance comprehensive analysis of organic molecules in extraterrestrial objects

Serra¹,

Lange²,

Remaury³

et al. 2022

Talanta

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Isotopic and structural signature of experimentally irradiated organic matter

Laurent¹,

Roskosz²,

Rémusat³

et al. 2014

Geochimica et Cosmochimica Acta

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Experimental Investigation of Irradiation-Driven Hydrogen Isotope Fractionation in Analogs of Protoplanetary Hydrous Silicate Dust

Roskosz

Laurent

Leroux

et al. 2016

ApJ

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The origin of hydrogen in chondritic components is poorly understood. Their isotopic composition is heavier than the solar nebula gas. In addition, in most meteorites, hydrous silicates are found to be lighter than the coexisting organic matter. Ionizing irradiation recently emerged as an efficient hydrogen fractionating process in organics, but its effect on H-bearing silicates remains essentially unknown. We report the evolution of the D/H of hydrous silicates experimentally irradiated by electrons. Thin films of amorphous silica, amorphous “serpentine,” and pellets of crystalline muscovite were irradiated at 4 and 30 keV. For all samples, irradiation leads to a large hydrogen loss correlated with a moderate deuterium enrichment of the solid residue. The entire data set can be described by a Rayleigh distillation. The calculated fractionation factor is consistent with a kinetically controlled fractionation during the loss of hydrogen. Furthermore, for a given ionizing condition, the deuteration of the silicate residues is much lower than the deuteration measured on irradiated organic macromolecules. These results provide firm evidence of the limitations of ionizing irradiation as a driving mechanism for D-enrichment of silicate materials. The isotopic composition of the silicate dust cannot rise from a protosolar to a chondritic signature during solar irradiations. More importantly, these results imply that irradiation of the disk naturally induces a strong decoupling of the isotopic signatures of coexisting organics and silicates. This decoupling is consistent with the systematic difference observed between the heavy organic matter and the lighter water typically associated with minerals in the matrix of most carbonaceous chondrites.

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Boris Laurent

The deuterium/hydrogen distribution in chondritic organic matter attests to early ionizing irradiation

Integrative analytical workflow to enhance comprehensive analysis of organic molecules in extraterrestrial objects

Isotopic and structural signature of experimentally irradiated organic matter

Experimental Investigation of Irradiation-Driven Hydrogen Isotope Fractionation in Analogs of Protoplanetary Hydrous Silicate Dust

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