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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 58, 1986 - Issue 2
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Original Articles

Structural studies of liquid D-glycerol by neutron diffraction

D.C. Champeney School of Maths and Physics, University of East Anglia, Norwich, NR4 7TJ, England
,
R.N. Joarder School of Maths and Physics, University of East Anglia, Norwich, NR4 7TJ, EnglandView further author information
&
J.C. Dore Physics Laboratory, University of Kent, Canterbury, CT2 7NR, England
Pages 337-347 | Received 13 Jul 1985, Accepted 20 Dec 1985, Published online: 22 Aug 2006

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P. Bordat, A. Lerbret, M. Descamps & F. Affouard. (2006) Slow dynamics in glass-forming materials. Molecular Simulation 32:12-13, pages 1057-1068.
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S. Erol Okan, PhilipS. Salmon, DavidC. Champeney & Ingrid Petri. (1995) The solvation of cations in hydrogen-bonded molecular solvents: a neutron diffraction study on the structure of Ni2+ solutions in ethylene glycol and in glycerol. Molecular Physics 84:2, pages 325-343.
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H.J.M. Hanley, G.C. Straty, C.J. Glinka & J.B. Hayter. (1987) Low-Q neutron diffraction from supercooled D-glycerol. Molecular Physics 62:5, pages 1165-1174.
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M. Garawi, J.C. Dore & D.C. Champeney. (1987) Structural studies of liquid D-glycerol. Molecular Physics 62:2, pages 475-487.
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H. Farman, J.C. Dore, M.-C. Bellisent-Funel & D.G. Montague. (1987) Structural studies of cyclohexane, C6D12 by neutron diffraction. Molecular Physics 61:3, pages 583-596.
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Marceau Hénot, Pierre-Michel Déjardin & François Ladieu. (2023) Orientational dynamics in supercooled glycerol computed from MD simulations: self and cross contributions. Physical Chemistry Chemical Physics 25:42, pages 29233-29240.
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Gennadiy I. Egorov, Dmitriy M. Makarov & Arkadiy M. Kolker. (2023) Thermodynamic properties of {glycerol (1) + tert-butanol (2)} mixtures at temperatures from 278 K to 323 K and pressures up to 100 MPa. The Journal of Chemical Thermodynamics 186, pages 107124.
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Zhenxuan Chen, Chengbin Huang, Xin Yao, Chris J. Benmore & Lian Yu. (2021) Structures of glass-forming liquids by x-ray scattering: Glycerol, xylitol, and D-sorbitol. The Journal of Chemical Physics 155:24.
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M. Becher, T. Wohlfromm, E. A. Rössler & M. Vogel. (2021) Molecular dynamics simulations vs field-cycling NMR relaxometry: Structural relaxation mechanisms in the glass-former glycerol revisited. The Journal of Chemical Physics 154:12.
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Shoshan T. Abrahami, Fatah Chiter, Lorena H. Klein, Vincent Maurice, Herman Terryn, Dominique Costa & Philippe Marcus. (2019) In Situ EC-STM Study and DFT Modeling of the Adsorption of Glycerol on Cu(111) in NaOH Solution. The Journal of Physical Chemistry C 123:36, pages 22228-22238.
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Muhtar Ahart, Dilare Aihaiti, Russell J. Hemley & Seiji Kojima. (2017) Pressure Dependence of the Boson Peak of Glassy Glycerol. The Journal of Physical Chemistry B 121:27, pages 6667-6672.
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J. Bartoš & H. Švajdlenková. (2017) On the mutual relationships between spin probe mobility, free volume and relaxation dynamics in organic glass-formers: Glycerol. Chemical Physics Letters 670, pages 58-63.
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V. B. VICENTE & R. B. TÔRRES. (2015) VOLUME MOLAR EXCESSO DE SOLUÇÕES LÍQUIDAS BINÁRIAS DE GLICEROL + ÁLCOOIS A DIFERENTES TEMPERATURAS E À PRESSÃO ATMOSFÉRICA. VOLUME MOLAR EXCESSO DE SOLUÇÕES LÍQUIDAS BINÁRIAS DE GLICEROL + ÁLCOOIS A DIFERENTES TEMPERATURAS E À PRESSÃO ATMOSFÉRICA.
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David A. Jahn, Frederick O. Akinkunmi & Nicolas Giovambattista. (2014) Effects of Temperature on the Properties of Glycerol: A Computer Simulation Study of Five Different Force Fields. The Journal of Physical Chemistry B 118:38, pages 11284-11294.
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Rémi Busselez, Thomas Pezeril & Vitalyi E. Gusev. (2014) Structural heterogeneities at the origin of acoustic and transport anomalies in glycerol glass-former. The Journal of Chemical Physics 140:23.
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Gabriel Alejandro Bedogni, Cristina Liliana Padró & Nora Beatriz Okulik. (2014) A combined experimental and computational study of the esterification reaction of glycerol with acetic acid. Journal of Molecular Modeling 20:4.
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Gennadiy I. Egorov, Dmitriy M. Makarov & Arkadiy M. Kolker. (2013) Volume properties of liquid mixture of water+glycerol over the temperature range from 278.15 to 348.15K at atmospheric pressure. Thermochimica Acta 570, pages 16-26.
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Franziska Bell, Qiao N. Ruan, Amir Golan, Paul R. Horn, Musahid Ahmed, Stephen R. Leone & Martin Head-Gordon. (2013) Dissociative Photoionization of Glycerol and its Dimer Occurs Predominantly via a Ternary Hydrogen-Bridged Ion–Molecule Complex. Journal of the American Chemical Society 135:38, pages 14229-14239.
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