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Critical Reviews in Solid State and Materials Sciences Volume 15, 1989 - Issue 4
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Original Articles

Correlation effects in ionic conductivity

Graeme E. Murch Department of Mechanical Engineering, The University of Newcastle, New South Wales, Australia
&
Jeppe C. Dyre Institute of Mathematics and Physics IMFUFA University of Roskilde, Roskilde, Denmark
Pages 345-365 | Published online: 27 Sep 2006

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F. Wilangowski & N. A. Stolwijk. (2017) A Monte Carlo study of ionic transport in a simple cubic random alloy via the interstitialcy mechanism: effects of non-collinear and direct interstitial jumps. Philosophical Magazine 97:2, pages 108-127.
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F. Wilangowski & N.A. Stolwijk. (2015) Vacancy-related diffusion correlation effects in a simple cubic random alloy and on the Na–K sublattice of alkali feldspar. Philosophical Magazine 95:21, pages 2277-2293.
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I. V. Belova, M. J. Brown, A. R. Allnatt & G. E. Murch . (2005) Diffusion kinetics of isolated and paired species: a Monte Carlo study. Philosophical Magazine 85:24, pages 2787-2798.
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I. V. Belova, M. J. Brown & G. E. Murch . (2005) Computer simulation of the phenomenological transport coefficient in the lattice gas and Fick's First Law. Philosophical Magazine 85:14, pages 1495-1506.
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I.V. Belova & G.E. Murch. (1996) Two approaches for the evaluation of collective diffusion correlation factors. Philosophical Magazine A 73:1, pages 131-146.
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Z. Qin & G.E. Murch. (1995) Computer simulation of chemical diffusion in a binary alloy with an equilibrium concentration of vacancies. Philosophical Magazine A 71:2, pages 323-332.
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Z. Qin & G.E. Murch. (1993) Computer simulation of collective correlation effects for diffusion in a random alloy. Philosophical Magazine A 68:5, pages 819-830.
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Z. Qin & G.E. Murch. (1992) Collective correlation effects in solid-state diffusion. Philosophical Magazine A 66:6, pages 957-973.
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P.G. Bruce. (1991) Intercalation compounds: Some recent developments and future trends in mixed conductors. Philosophical Magazine A 64:5, pages 1101-1112.
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Articles from other publishers (35)

Bharathi Bandi & Abhijit Chatterjee. (2023) Emergent ionic conduction in aliovalently-doped fast ion conductors. Journal of Materials Chemistry A 11:42, pages 22760-22768.
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Ivan Popov, Haijin Zhu, Airat Khamzin, Curt Zanelotti, Louis Madsen, Maria Forsyth & Alexei P. Sokolov. (2023) Collective Ion Dynamics in Ionic Plastic Crystals: The Origin of Conductivity Suppression. The Journal of Physical Chemistry C 127:32, pages 15918-15927.
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Ivan Popov, Shiwang Cheng & Alexei P. Sokolov. 2022. Macromolecular Engineering. Macromolecular Engineering 1 39 .
Dennis Kemp & Roger A. De Souza. (2021) Nonlinear ion mobility at high electric field strengths in the perovskites and . Physical Review Materials 5:10.
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Christian Schwab, Henning Schraknepper & Roger A. De Souza. (2021) Oxygen transport in single-crystal substrates . Physical Review Materials 5:10.
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Steffen Grieshammer, Irina V. Belova & Graeme E. Murch. (2021) Thermodiffusion and ion transport in doped ceria by molecular dynamics simulations. Acta Materialia 210, pages 116802.
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Jan L. Wiemer, Martin Schäfer & Karl-Michael Weitzel. (2021) Li + Ion Site Energy Distribution in Lithium Aluminum Germanium Phosphate . The Journal of Physical Chemistry C 125:9, pages 4977-4985.
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Martin Schäfer, David Budina & Karl-Michael Weitzel. (2019) Site energy distribution of sodium ions in a sodium rubidium borate glass. Physical Chemistry Chemical Physics 21:47, pages 26251-26261.
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Bruno Poletto Rodrigues, Rene Limbach, Gabriel Buzatto de Souza, Heike Ebendorff-Heidepriem & Lothar Wondraczek. (2019) Correlation Between Ionic Mobility and Plastic Flow Events in NaPO3-NaCl-Na2SO4 Glasses. Frontiers in Materials 6.
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Bruno P. Rodrigues, Heike Ebendorff-Heidepriem & Lothar Wondraczek. (2019) Decoupling mobility and charge carrier concentration in AgR-AgPO3 glasses (R = Cl, Br, I). Solid State Ionics 334, pages 99-104.
Crossref
Fabian Hergemöller & Nicolaas A. Stolwijk. (2018) Monte Carlo Simulation of Correlation Effects in a Random SC Alloy via Interstitialcy Mechanisms. Diffusion Foundations 19, pages 35-60.
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M. Schäfer & K.-M. Weitzel. (2018) Site energy distribution of ions in the potential energy landscape of amorphous solids. Materials Today Physics 5, pages 12-19.
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Fabian Hergemöller, Matthias Wegner, Manfred Deicher, Herbert Wolf, Florian Brenner, Herbert Hutter, Rainer Abart & Nicolaas A. Stolwijk. (2016) Potassium self-diffusion in a K-rich single-crystal alkali feldspar. Physics and Chemistry of Minerals 44:5, pages 345-351.
Crossref
Cheng Ma, Yongqiang Cheng, Ce-Wen Nan, Nancy Dudney, Karren L. More & Miaofang Chi. (2016) A “Hidden” Mesoscopic Feature Revealed By Electron Microscopy Could Facilitate Ion Transport In Solid Electrolytes. Microscopy and Microanalysis 22:S3, pages 1308-1309.
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Hamid El Maanaoui, Fabian Wilangowski, Aditya Maheshwari, Hans-Dieter Wiemhöfer, Rainer Abart & Nicolaas A. Stolwijk. (2016) Ionic conductivity in gem-quality single-crystal alkali feldspar from the Eifel: temperature, orientation and composition dependence. Physics and Chemistry of Minerals 43:5, pages 327-340.
Crossref
F Wilangowski & N A Stolwijk. (2015) Monte Carlo simulation of diffusion and ionic conductivity in a simple cubic random alloy via the interstitialcy mechanism. Journal of Physics: Condensed Matter 27:50, pages 505401.
Crossref
Johannes Kösters, Monika Schönhoff & Nicolaas A. Stolwijk. (2015) Mass and Charge Transport in the Polymer–Ionic-Liquid System PEO–EMImI: From Ionic-Liquid-in-Polymer to Polymer-in-Ionic-Liquid Electrolytes. The Journal of Physical Chemistry B 119:17, pages 5693-5700.
Crossref
Nicolaas A. Stolwijk, Johannes Kösters, Manfred Wiencierz & Monika Schönhoff. (2013) On the extraction of ion association data and transference numbers from ionic diffusivity and conductivity data in polymer electrolytes. Electrochimica Acta 102, pages 451-458.
Crossref
Graeme E. Murch. 2006. Materials Science and Technology. Materials Science and Technology.
N.A. Stolwijk & Sh. Obeidi. (2009) Combined analysis of self-diffusion, conductivity, and viscosity data on room temperature ionic liquids. Electrochimica Acta 54:5, pages 1645-1653.
Crossref
N.A. Stolwijk, M. Wiencierz & Sh. Obeidi. (2007) Self-diffusion versus ion conduction in polymer electrolytes: On the occurrence of pairs, triplets, and higher-order clusters. Electrochimica Acta 53:4, pages 1575-1583.
Crossref
Irina V. Belova & Graeme E. Murch. (2006) Analysis of Interdiffusion and Intrinsic Diffusion in Multicomponent Alloys to Obtain Information about Diffusion Mechanisms. Defect and Diffusion Forum 258-260, pages 237-246.
Crossref
Irina V. Belova, M.J. Brown & Graeme E. Murch. (2006) Calculation of Phenomenological Coefficients by Monte Carlo Computer Simulation Methods. Defect and Diffusion Forum 249, pages 27-34.
Crossref
Shahmahmood Obeidi, Nicolaas A. Stolwijk & Steven J. Pas. (2005) Mass and Charge Transport in a Cross-Linked Polyether-Based Electrolyte. The Role of Ion Pairs. Macromolecules 38:26, pages 10750-10756.
Crossref
Maylise Nastar & Emmanuel Clouet. (2004) Mean field theories for the description of diffusion and phase transformations controlled by diffusion. Phys. Chem. Chem. Phys. 6:13, pages 3611-3619.
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Q. Jiang, P. A. Thomas, K. B. Hutton & R. C. C. Ward. (2002) Rb-doped potassium titanyl phosphate for periodic ferroelectric domain inversion. Journal of Applied Physics 92:5, pages 2717-2723.
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Oleg A. Petrii & Galina A. Tsirlina. 1997. Advances in Electrochemical Science and Engineering. Advances in Electrochemical Science and Engineering 61 123 .
Sheikh A. Akbar. (1994) A generalized view of the correlation factor in solid-state diffusion. Journal of Applied Physics 75:6, pages 2851-2856.
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Radu Pitiş. (1993) Conductivity of two-state trapping models beyond mean field. Physics Letters A 183:1, pages 81-84.
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Radu Pitiş. (1993) Charge correlation factor of the random binary chain determined by Monte Carlo simulation. Physical Review B 47:22, pages 15290-15293.
Crossref
Peter G. Bruce. 1993. Fast Ion Transport in Solids. Fast Ion Transport in Solids 87 107 .
Sheikh A. Akbar. (1992) The path probability method: An atomistic technique of diffusion. Journal of Materials Science 27:12, pages 3125-3132.
Crossref
P.G. Bruce & I. Abrahams. (1991) A defect cluster model for ion migration in solid electrolytes. Journal of Solid State Chemistry 95:1, pages 74-82.
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P.G. Bruce & M.Y. Saidi. (1991) Comparison of the cubic and layered polymorphs of titanium disulphide. Electrochimica Acta 36:3-4, pages 569-575.
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H. Kahnt & J.M. Reau. (1990) Effective medium approach to the mixed mobile ion effect. Journal of Non-Crystalline Solids 125:1-2, pages 143-150.
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