0000000001294581

AUTHOR

Jacques Ollivier

showing 6 related works from this author

Nitrogen Hydrate Cage Occupancy and Bulk Modulus Inferred from Density Functional Theory-Derived Cell Parameters

2021

International audience; Gas clathrate hydrate solid materials, ubiquitous in nature as found either on the ocean floor, permafrost on the Earth, or in extraterrestrial planets and comets, are also technologically relevant, for example, in energy storage or carbon dioxide sequestration. Nitrogen hydrate, in particular, is of great interest as a promoter of the kinetics of the methane replacement reaction by carbon dioxide in natural gas hydrates. This hydrate may also appear in the chemistry of planets wherever nitrogen constitutes the majority of the atmosphere. A fine understanding of the stability of this hydrate under various thermodynamic conditions is thus of utmost importance to asses…

Materials scienceClathrate hydrateClathrate hydrates02 engineering and technology010402 general chemistryPermafrost01 natural sciencesAstrobiologyStructural / thermomechanical propertiesPlanetEnergetic propertiesPhysical and Theoretical ChemistryDFT - Density Functional TheoryComputingMilieux_MISCELLANEOUSBulk modulus[CHIM.MATE]Chemical Sciences/Material chemistry021001 nanoscience & nanotechnology0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic Materials[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryGeneral EnergyExtraterrestrial life[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]Density functional theory0210 nano-technologyHydrateEarth (classical element)
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Anomalous water dynamics in brain: a combined diffusion magnetic resonance imaging and neutron scattering investigation

2019

International audience; Water diffusion is an optimal tool for investigating the architecture of brain tissue on which modern medical diagnostic imaging techniques rely. However, intrinsic tissue heterogeneity causes systematic deviations from pure free-water diffusion behaviour. To date, numerous theoretical and empirical approaches have been proposed to explain the non-Gaussian profile of this process. The aim of this work is to shed light on the physics piloting water diffusion in brain tissue at the micrometre-to-atomic scale. Combined diffusion magnetic resonance imaging and first pioneering neutron scattering experiments on bovine brain tissue have been performed in order to probe dif…

Medical diagnosticMaterials science[SDV.IB.IMA]Life Sciences [q-bio]/Bioengineering/ImagingQuantitative Biology::Tissues and OrgansPhysics::Medical PhysicsBiomedical EngineeringBiophysicsproton dynamicsBioengineeringbrain imagingNeutron scatteringBiochemistryAtomic unitsBiomaterials03 medical and health sciences0302 clinical medicineTissue heterogeneityWater dynamicsNuclear magnetic resonancemedicineAnimalsDiffusion (business)030304 developmental biologydiffusion magnetic resonance imaging0303 health sciencesProton dynamicmedicine.diagnostic_testneutron scatteringBrainWaterMagnetic resonance imagingwater diffusionLife Sciences–Physics interfaceMagnetic Resonance ImagingSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)Neutron Diffraction[SDV.IB.IMA] Life Sciences [q-bio]/Bioengineering/ImagingBovine brainBrain imaging; Diffusion magnetic resonance imaging; Neutron scattering; Proton dynamics; Water diffusionCattle030217 neurology & neurosurgeryBiotechnology
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Dynamical properties of water in living cells

2018

With the aim of studying the effect of water dynamics on the properties of biological systems, in this paper, we present a quasi-elastic neutron scattering study on three different types of living cells, differing both in their morphological and tumor properties. The measured scattering signal, which essentially originates from hydrogen atoms present in the investigated systems, has been analyzed using a global fitting strategy using an optimized theoretical model that considers various classes of hydrogen atoms and allows disentangling diffusive and rotational motions. The approach has been carefully validated by checking the reliability of the calculation of parameters and their 99% confi…

Properties of waterScale (ratio)HydrogenPhysics and Astronomy (miscellaneous)chemistry.chemical_elementNeutron scattering010402 general chemistrySpace (mathematics)01 natural sciencesSignalchemistry.chemical_compoundOpticsquasi-elastic neutron scatteringwater structure and dynamicintracellular water0103 physical sciences010306 general physicsintracellular water; quasi-elastic neutron scattering; water structure and dynamics; Physics and Astronomy (miscellaneous)Physicsbusiness.industryScatteringSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)0104 chemical scienceswater structure and dynamicschemistryPicosecondbusinessBiological system
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Mobility of a Mononucleotide within a Lipid Matrix: A Neutron Scattering Study

2017

International audience; An essential question in studies on the origins of life is how nucleic acids were first synthesized and then incorporated into compartments about 4 billion years ago. A recent discovery is that guided polymerization within organizing matrices could promote a non-enzymatic condensation reaction allowing the formation of RNA-like polymers, followed by encapsulation in lipid membranes. Here, we used neutron scattering and deuterium labelling to investigate 5'-adenosine monophosphate (AMP) molecules captured in a multilamellar phospholipid matrix. The aim of the research was to determine and compare how mononucleotides are captured and differently organized within matric…

0301 basic medicinemultilamellar lipid matrix[PHYS.PHYS.PHYS-BIO-PH]Physics [physics]/Physics [physics]/Biological Physics [physics.bio-ph]neutron scattering; multilamellar lipid matrix; mononucleotide mobility; hydrationPhospholipidNeutron scattering010402 general chemistry01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyArticle03 medical and health scienceschemistry.chemical_compoundMoleculelcsh:ScienceLipid bilayerEcology Evolution Behavior and Systematicschemistry.chemical_classification[SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry Molecular Biology/Structural Biology [q-bio.BM]neutron scatteringPaleontologyPolymer0104 chemical sciencesmononucleotide mobility[SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biomolecules [q-bio.BM]030104 developmental biologyMembranechemistryBiochemistryDeuteriumPolymerizationSpace and Planetary ScienceChemical physicslcsh:Qlipids (amino acids peptides and proteins)hydration
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A benchmark for protein dynamics: Ribonuclease A measured by neutron scattering in a large wavevector-energy transfer range

2008

The dynamics of Ribonuclease A was explored in the full range of time and length-scales accessible by neutron spectroscopy, on time-of-flight, backscattering and spin-echo spectrometers. Samples were examined in dry and hydrated powder forms and in concentrated and dilute solutions. The aim of the study was an experimental characterisation of the full variety of protein dynamics arising from stabilisation forces. The results provide a benchmark against which other sample dynamics can be compared.

Quantitative Biology::BiomoleculesRange (particle radiation)SpectrometerChemistryProtein dynamicsDynamics (mechanics)General Physics and AstronomyNeutron scatteringMolecular physicsNeutron spectroscopyBenchmark (computing)Wave vectorPhysical and Theoretical ChemistryAtomic physicsChemical Physics
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Erratum to: Dynamical properties of water in living cells (Front. Phys, (2018) 13, 1, 138301, 10.1007/s11467-017-0731-5)

2018

In the original publication of the article, the label Q2(A-2) in Fig. 4 should be replaced with Q(A-1). Below is the correct Fig. 4.[Figure not available: see fulltext.]. © 2018, Higher Education Press and Springer-Verlag GmbH Germany, part of Springer Nature.

Physics and Astronomy (miscellaneous)-Settore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)
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