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Physics and Chemistry of Liquids
An International Journal
Volume 13, 1984 - Issue 4
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Original Articles

Dependence of Capacitance of Metal-Molten Salt Interface on Local Density Profiles Near Electrode

P. Ballone International School for Advanced Studies, Trieste, Italy
,
G. Pastore International School for Advanced Studies, Trieste, Italy
,
M. P. Tosi Istituto di Fisica Teorica dell'Università, and International Centre for Theoretical Physics, Trieste, Italy
,
K. R. Painter Theoretical Chemistry Department, University of Oxford, 1 South Parks Road., Oxford, OX1 3TG, England
,
P. J. Grout Theoretical Chemistry Department, University of Oxford, 1 South Parks Road., Oxford, OX1 3TG, England
&
N. H. March Theoretical Chemistry Department, University of Oxford, 1 South Parks Road., Oxford, OX1 3TG, England
Pages 269-277 | Received 15 Sep 1983, Published online: 03 Jan 2007

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Stanisław Lamperski & Lutful Bari Bhuiyan. (2022) Entropy characteristics in an electric double layer with off-centre charge ions. A statistical thermodynamics approach. Molecular Physics 120:8.
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Whasington Silvestre-Alcantara, Lutful Bari Bhuiyan, Jian Jiang, Jianzhong Wu & Douglas Henderson. (2014) Contact value relations and density functional theory for the electrical double layer. Molecular Physics 112:24, pages 3144-3151.
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D. Di Caprio, J. P. Badiali & J. Stafiej. (2006) Field theoretical description of the liquid state. Exact relations. The role of the ideal entropy revisited. Molecular Physics 104:22-24, pages 3443-3450.
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Dung Di Caprio, Mónika Valiskó, Myroslav Holovko & Dezső Boda. (2006) Anomalous temperature dependence of the differential capacitance in valence asymmetric electrolytes. Comparison of Monte Carlo simulation results and the field theoretical approach. Molecular Physics 104:22-24, pages 3777-3786.
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ANGUS GRAY-WEALE & PAULA. MADDEN. (2003) Theoretical calculation of the structure of a polarizable-ionic fluid. Molecular Physics 101:11, pages 1761-1779.
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MICHAELJ. BOOTH & A. D. J. HAYMET. (2001) Molten salts near a charged surface: integral equation approximation for a model of KCl. Molecular Physics 99:21, pages 1817-1824.
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E. Roman, M.P. Tosi, P.J. Grout & N.H. March. (1985) Effect of Microscopic Structure of Metal Electrode on Capacitance of Metal-Molten Salt Interface. Physics and Chemistry of Liquids 15:2, pages 123-127.
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Articles from other publishers (24)

Md. Siful Islam, Stanisław Lamperski, Md. Mominul Islam, Douglas Henderson & Lutful Bari Bhuiyan. (2020) Temperature dependence of differential capacitance in the electric double layer.Symmetric valency 1:1 electrolytes. The Journal of Chemical Physics 152:20.
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Zachary A.H. Goodwin, Guang Feng & Alexei A. Kornyshev. (2017) Mean-Field Theory of Electrical Double Layer In Ionic Liquids with Account of Short-Range Correlations. Electrochimica Acta 225, pages 190-197.
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Arik Yochelis, Maibam Birla Singh & Iris Visoly-Fisher. (2015) Coupling Bulk and Near-Electrode Interfacial Nanostructuring in Ionic Liquids. Chemistry of Materials 27:12, pages 4169-4179.
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Maxim V. Fedorov & Alexei A. Kornyshev. (2014) Ionic Liquids at Electrified Interfaces. Chemical Reviews 114:5, pages 2978-3036.
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Jenel Vatamanu, Lidan Xing, Weishan Li & Dmitry Bedrov. (2014) Influence of temperature on the capacitance of ionic liquid electrolytes on charged surfaces. Physical Chemistry Chemical Physics 16:11, pages 5174.
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Orest Pizio & Stefan Sokołowski. 2011. Solid State Electrochemistry II. Solid State Electrochemistry II 73 124 .
D di Caprio & J P Badiali. (2008) A formally exact field theory for classical systems at equilibrium. Journal of Physics A: Mathematical and Theoretical 41:12, pages 125401.
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Dung Di Caprio, Mónika Valiskó, Myroslav Holovko & Dezső Boda. (2007) Simple Extension of a Field Theory Approach for the Description of the Double Layer Accounting for Excluded Volume Effects. The Journal of Physical Chemistry C 111:43, pages 15700-15705.
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Carlos Pinilla, M. G. Del Pópolo, Jorge Kohanoff & R. M. Lynden-Bell. (2007) Polarization Relaxation in an Ionic Liquid Confined between Electrified Walls † . The Journal of Physical Chemistry B 111:18, pages 4877-4884.
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Mónika Valiskó, Douglas Henderson & Dezső Boda. (2007) The capacitance of the electrical double layer of valence-asymmetric salts at low reduced temperatures. Journal of Molecular Liquids 131-132, pages 179-184.
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D. di Caprio & J. Stafiej. (2007) Field theoretical approach to the liquid state. Elements of comprehension of the role of the ideal entropy. Journal of Molecular Liquids 131-132, pages 48-52.
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M. Zistler, P. Wachter, C. Schreiner, M. Fleischmann, D. Gerhard, P. Wasserscheid, A. Hinsch & H. J. Gores. (2007) Temperature Dependent Impedance Analysis of Binary Ionic Liquid Electrolytes for Dye-Sensitized Solar Cells. Journal of The Electrochemical Society 154:9, pages B925.
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D. di Caprio, J. Stafiej & Z. Borkowska. (2005) Anomalous temperature dependence of differential capacity at an uncharged interface with Debye–Hückel electrolyte: Field theoretical approach. Journal of Electroanalytical Chemistry 582:1-2, pages 41-49.
Crossref
L. B. Bhuiyan, C. W. Outhwaite & D. Henderson. (2005) A modified Poisson–Boltzmann analysis of the capacitance behavior of the electric double layer at low temperatures. The Journal of Chemical Physics 123:3.
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J. Reszko-Zygmunt, S. Sokolowski & O. Pizio. (2005) Temperature dependence of the double-layer capacitance for the restricted primitive model: The effect of chemical association between unlike ions. The Journal of Chemical Physics 123:1.
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J. Reszko-Zygmunt, S. Sokołowski, D. Henderson & D. Boda. (2005) Temperature dependence of the double layer capacitance for the restricted primitive model of an electrolyte solution from a density functional approach. The Journal of Chemical Physics 122:8.
Crossref
D. Henderson. (2001) Simulation and theory of the electrochemical double layer for strong ionic interactions. Journal of Molecular Liquids 92:1-2, pages 29-39.
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Myroslav Holovko, Vitalyj Kapko, Douglas Henderson & Dezsö Boda. (2001) On the influence of ionic association on the capacitance of an electrical double layer. Chemical Physics Letters 341:3-4, pages 363-368.
Crossref
Dezsö Boda & Douglas Henderson. (2000) The capacitance of the solvent primitive model double layer at low effective temperatures. The Journal of Chemical Physics 112:20, pages 8934-8938.
Crossref
Dezső Boda, Douglas Henderson & Kwong-Yu Chan. (1999) Monte Carlo study of the capacitance of the double layer in a model molten salt. The Journal of Chemical Physics 110:11, pages 5346-5350.
Crossref
M Revere & M P Tosi. (1986) Structure and dynamics of molten salts. Reports on Progress in Physics 49:9, pages 1001-1081.
Crossref
C. Caccamo, G. Pizzimenti & L. Blum. (1986) An improved closure for the Born–Green–Yvon equation for the electric double layer. The Journal of Chemical Physics 84:6, pages 3327-3335.
Crossref
Douglas Henderson. 1986. Trends in Interfacial Electrochemistry. Trends in Interfacial Electrochemistry 473 521 .
P. Ballone, G. Pastore & M. P. Tosi. (1984) Structure and thermodynamic properties of molten alkali chlorides. The Journal of Chemical Physics 81:7, pages 3174-3180.
Crossref

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