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Chris J. Benmore
Researcher at Argonne National Laboratory
Publications - 287
Citations - 8325
Chris J. Benmore is an academic researcher from Argonne National Laboratory. The author has contributed to research in topics: Neutron diffraction & Amorphous solid. The author has an hindex of 45, co-authored 254 publications receiving 6983 citations. Previous affiliations of Chris J. Benmore include Oak Ridge National Laboratory & Rutherford Appleton Laboratory.
Papers
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Journal ArticleDOI
Benchmark oxygen-oxygen pair-distribution function of ambient water from x-ray diffraction measurements with a wide Q-range
Lawrie Skinner,Congcong Huang,Daniel Schlesinger,Lars G. M. Pettersson,Anders Nilsson,Chris J. Benmore +5 more
TL;DR: Four recent x-ray diffraction measurements of ambient liquid water are reviewed here and the extended Q-range and low statistical noise of these measurements has significantly reduced truncation effects and related errors in the g(OO)(r) functions obtained.
Journal ArticleDOI
Quantum Differences between Heavy and Light Water.
Alan K. Soper,Chris J. Benmore +1 more
TL;DR: It is found that heavy water is a more structured liquid than light water, and the OH Bond length in H2O is approximately 3% longer than the OD bond length in D2O, a much larger change than current predictions.
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Structural studies of several distinct metastable forms of amorphous ice.
Christopher A. Tulk,Chris J. Benmore,J. Urquidi,Dennis D. Klug,Jörg Neuefeind,Bruno Tomberli,P. A. Egelstaff +6 more
TL;DR: Radial distribution functions indicate that the structure evolves systematically between 4 and 8 angstroms, and the phase transformations in low-temperature liquid water may be much more complex than currently understood.
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Nanostructure of calcium silicate hydrates in cements.
TL;DR: The CSH component in hydrated tricalcium silicate is found to be similar to CSH(I), and only a slight bend and additional disorder within the CaO sheets is required to explain its nanocrystalline structure.
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Structure of fast ion conducting and semiconducting glassy chalcogenide alloys.
TL;DR: The method of isotopic substitution in neutron diffraction was used to measure the metal-metal partial structure factor in this paper, and the remaining partial structure factors were then separated into two functions which comprise either the $M\ensuremath{-]-ensure-math{\mu} (ensure)-math-mu(ensure) =\mathrm{As]-or]-Se$ or $M$ species.