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Philosophical Magazine B Volume 58, 1988 - Issue 5
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Original Articles

A neutron-scattering study of the structure of molten lithium chloride

M. A. Howe Clarendon Laboratory, Parks Road, Oxford, OX1 3PU, England; Chemical Technology Division, Argonne National Laboratory, 9700 South Cass Avenue, Argonne, Illinois, 60439, U.S.A
&
R. L. Mcgreevy Clarendon Laboratory, Parks Road, Oxford, OX1 3PU, England
Pages 485-495 | Received 28 Apr 1988, Accepted 13 Jul 1988, Published online: 20 Aug 2006

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Yasushi Miyamoto, Susumu Okazaki, Osamu Odawara, Isao Okada, Masakatsu Misawa & Toshiharu Fukunaga. (1994) Neutron diffraction study of the Li−Cl distance in molten mixture systems (Li, K)Cl and (Li, Cs)Cl. Molecular Physics 82:5, pages 887-895.
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P.R. Gartrell-mills & R.L. McGreevy. (1989) Monte-Carlo Simulation of Molten CsCl Using a ‘Deformation Dipole’ Polarisable Ion Potential. Molecular Simulation 2:3, pages 209-216.
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Articles from other publishers (27)

Xin Song, Shaolong Li, Shanshan Liu, Yong Fan, Jilin He & Jianxun Song. (2023) Coordination states of metal ions in molten salts and their characterization methods. International Journal of Minerals, Metallurgy and Materials 30:7, pages 1261-1277.
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Min Bu, Taixi Feng & Guimin Lu. (2023) Prediction on local structure and properties of LiCl-KCl-AlCl3 ternary molten salt with deep learning potential. Journal of Molecular Liquids 375, pages 120689.
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Yizhi Han, Jianhui Lan, Xue Liu & Weiqun Shi. (2023) Advances in Molecular Dynamics Studies of Molten Salts Based on Machine Learning. Acta Chimica Sinica 81:11, pages 1663.
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Talmage Porter, Michael M. Vaka, Parker Steenblik & Dennis Della Corte. (2022) Computational methods to simulate molten salt thermophysical properties. Communications Chemistry 5:1.
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Alexander Y. Galashev & Ksenia A. Ivanichkina. (2022) Unraveling local structure of molten salt KF-KCl-KI via molecular dynamics simulation. Chemical Physics 555, pages 111455.
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Manh-Thuong Nguyen, Vassiliki-Alexandra Glezakou, Jason Lonergan, Bruce McNamara, Patricia D. Paviet & Roger Rousseau. (2021) Ab initio molecular dynamics assessment of thermodynamic and transport properties in (K,Li)Cl and (K, Na)Cl molten salt mixtures. Journal of Molecular Liquids 326, pages 115262.
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Haimeng Wang, Ryan S. DeFever, Yong Zhang, Fei Wu, Santanu Roy, Vyacheslav S. Bryantsev, Claudio J. Margulis & Edward J. Maginn. (2020) Comparison of fixed charge and polarizable models for predicting the structural, thermodynamic, and transport properties of molten alkali chlorides. The Journal of Chemical Physics 153:21.
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Santanu Roy, Fei Wu, Haimeng Wang, Alexander S. Ivanov, Shobha Sharma, Phillip Halstenberg, Simerjeet K Gill, A. M. Milinda Abeykoon, Gihan Kwon, Mehmet Topsakal, Bobby Layne, Kotaro Sasaki, Yong Zhang, Shannon M. Mahurin, Sheng Dai, Claudio J. Margulis, Edward J. Maginn & Vyacheslav S. Bryantsev. (2020) Structure and dynamics of the molten alkali-chloride salts from an X-ray, simulation, and rate theory perspective. Physical Chemistry Chemical Physics 22:40, pages 22900-22917.
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Maria C Abramo, Dino Costa, Gianpietro Malescio, Gianmarco Munaò, Giuseppe Pellicane, Santi Prestipino & Carlo Caccamo. (2020) Structure factors and x-ray diffraction intensities in molten alkali halides. Journal of Physics Communications 4:7, pages 075017.
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Jicheng Guo, Augustus Merwin, Chris J. Benmore, Zhi-Gang Mei, Nathaniel C. Hoyt & Mark A. Williamson. (2019) Fluid Structure of Molten LiCl–Li Solutions. The Journal of Physical Chemistry B 123:47, pages 10036-10043.
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Marie-Madeleine Walz & David van der Spoel. (2019) Molten alkali halides – temperature dependence of structure, dynamics and thermodynamics. Physical Chemistry Chemical Physics 21:34, pages 18516-18524.
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Yizhak MarcusYizhak Marcus. 2016. Ionic Liquid Properties. Ionic Liquid Properties 25 98 .
D. K. Belashchenko,Ο. I. Ostrovski,. (2004) Liquid Halides: Structure, Pair Potentials, Energy and Ion Charges. High Temperature Materials and Processes 23:5-6, pages 313-328.
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Ashok K. Adya. 2002. Molten Salts: From Fundamentals to Applications. Molten Salts: From Fundamentals to Applications 107 148 .
Kohei Kadono, Masanori Shojiya, Hiroyuki Kageyama, Nagao Kamijo, Yoji Kawamoto & Hiroshi Tanaka. (1998) Extended x-ray absorption fine structure and molecular dynamics simulation studies on the structure of CuX- and AgX-based glasses (X = Cl, Br and I). Journal of Physics: Condensed Matter 10:23, pages 5007-5025.
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G. W. Neilson & A. K. Adya. (1997) Chapter 4. Neutron diffraction studies on liquids. Annual Reports Section "C" (Physical Chemistry) 93, pages 101.
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G. N. Papatheodorou, S. G. Kalogrianitis, T. G. Mihopoulos & E. A. Pavlatou. (1996) Isotropic and anisotropic Raman scattering from molten LiCl–CsCl mixtures: Composition and temperature effects. The Journal of Chemical Physics 105:7, pages 2660-2667.
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G.N. PapatheodoroU & V. Dracopoulos. (1995) Light scattering from molten lithium fluoride. Chemical Physics Letters 241:4, pages 345-350.
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Kenichi Kinugawa. (1993) Structures of disordered alkali chlorides in normal and compressed states: An isothermal-isobaric molecular-dynamics study. Physical Review B 48:14, pages 10097-10109.
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Kenichi Kinugawa, Norikazu Ohtori, Kohei Kadono, Hiroshi Tanaka, Susumu Okazaki, Masakatsu Misawa & Toshiharu Fukunaga. (1993) Pulsed neutron diffraction study on the structures of glassy 7LiX–KX–CsX–BaX2 (X=Cl, Br, and I). The Journal of Chemical Physics 99:7, pages 5345-5351.
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Kenichi Kinugawa. (1992) Collective dynamics of alkali chloride glasses: Molecular dynamics analyses of the dynamic structure factors. The Journal of Chemical Physics 97:11, pages 8581-8595.
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. (1997) The structure of molten salts. Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences 430:1878, pages 241-261.
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László Pusztai & Robert L. McGreevy. (1990) The structure of glassy zinc chloride: A reverse Monte Carlo study. Journal of Non-Crystalline Solids 117-118, pages 627-630.
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R L McGreevy & M A Howe. (1989) The structure of molten LiCl. Journal of Physics: Condensed Matter 1:49, pages 9957-9962.
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M.A. Howe. (1989) The structure of liquid copper selenide. Physica B: Condensed Matter 160:2, pages 170-176.
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M A Howe, R L McGreevy & W S Howells. (1989) The analysis of liquid structure data from time-of-flight neutron diffractometry. Journal of Physics: Condensed Matter 1:22, pages 3433-3451.
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L Pusztai & R L McGreevy. (1989) Dynamics of molten alkali halides: LiCl and DCl. Journal of Physics: Condensed Matter 1:13, pages 2369-2380.
Crossref

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