H
Hervé Jobic
Researcher at University of Lyon
Publications - 172
Citations - 7732
Hervé Jobic is an academic researcher from University of Lyon. The author has contributed to research in topics: Neutron scattering & Diffusion (business). The author has an hindex of 47, co-authored 172 publications receiving 7153 citations. Previous affiliations of Hervé Jobic include Max Planck Society & Institut de radioprotection et de sûreté nucléaire.
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Journal ArticleDOI
Why hybrid porous solids capture greenhouse gases
Gérard Férey,Christian Serre,Thomas Devic,Guillaume Maurin,Hervé Jobic,Philip L. Llewellyn,Guy De Weireld,Alexandre Vimont,Marco Daturi,Jong-San Chang +9 more
TL;DR: This tutorial review proposes answers to open questions in adsorption and storage of greenhouse gases with a special emphasis on CO(2) and CH(4) storage by some rigid and flexible hybrid porous materials.
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Localization of benzene in sodium-Y-zeolite by powder neutron diffraction
TL;DR: The structure of sodium-Y zeolite, containing chemisorbed deuterated benzene has been studied for two different benzene coverages at 4 K and room temperature by powder neutron diffraction as discussed by the authors.
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A Water Stable Metal–Organic Framework with Optimal Features for CO2 Capture
Qingyuan Yang,Sebastien Vaesen,Florence Ragon,Andrew D. Wiersum,Dong Wu,Ana Belén Lago,Thomas Devic,Charlotte Martineau,Francis Taulelle,Philip L. Llewellyn,Hervé Jobic,Chongli Zhong,Christian Serre,Guy De Weireld,Guillaume Maurin +14 more
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Quasi-elastic neutron scattering and molecular dynamics simulation as complementary techniques for studying diffusion in zeolites
Hervé Jobic,Doros N. Theodorou +1 more
TL;DR: Quasi-elastic neutron scattering (QENS) and molecular dynamics (MD) simulations have enabled the quantitative study of molecular motion in pure and mixed fluids sorbed in zeolites over length scales of 0.1-100 nm and time scales of 10 fs-100 ns as mentioned in this paper.
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Direct determination of proton positions in D-Y and H-Y zeolite samples by neutron powder diffraction
TL;DR: In this paper, high-resolution neutron powder diffraction study of D-Y containing water and completely dehydrated DY and H-Y is reported, and the preferred proton positions near the framework oxygens O(1) and O(3) are confirmed.