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THERMODYNAMICS OF ELECTROLYTES. III ACTIVITY AND OSMOTIC COEFFICIENTS FOR 2-2 ELECTROLYTESPITZER KS; MAYORGA G.1974; J. SOLUT. CHEM.; G.B.; DA. 1974; VOL. 3; NO 7; PP. 539-546; BIBL. 18 REF.Article

OPTIMIZED CLUSTER EXPANSIONS FOR CLASSICAL FLUIDS. IV. PRIMITIVE MODEL ELECTROLYTE SOLUTIONSHUDSON S; ANDERSEN HC.1974; J. CHEM. PHYS.; U.S.A.; DA. 1974; VOL. 60; NO 5; PP. 2188; BIBL. 6 REF.Article

THE MPB AND BBGY POTENTIAL THEORIES FOR A 2:2 RESTRICTED PRIMITIVE MODEL ELECTROLYTE AT LOW CONCENTRATIONSBURLEY DM; HUTSON VCL; OUTHWAITE CW et al.1981; J. CHEM. PHYS.; ISSN 0021-9606; USA; DA. 1981; VOL. 75; NO 6; PP. 3159-3160; BIBL. 7 REF.Article

TRANSFERENCE NUMBERS OF A 2:2 ELECTROLYTE: MAGNESIUM SULPHATE IN WATER AT 25OC.LIMA MCP; SUDATH KUMARASINGHE; SPIRO M et al.1978; J. CHEM. SOC., FARADAY TRANS., 1; G.B.; DA. 1978; VOL. 74; NO 4; PP. 1036-1044; BIBL. 51 REF.Article

THE GRAND CANONICAL ENSEMBLE MONTE CARLO METHOD APPLIED TO ELECTROLYTE SOLUTIONSVAN MEGEN W; SNOOK IK.1980; MOLEC. PHYS.; GBR; DA. 1980; VOL. 39; NO 5; PP. 1043-1054; BIBL. 13 REF.Article

NUMERICAL STUDY OF A MODIFIED BBGY INTEGRAL EQUATION FOR THE PRIMITIVE MODEL OF AN ELECTROLYTE SOLUTIONTHOMLINSON MM; OUTHWAITE CW.1979; MOLEC. PHYS.; GBR; DA. 1979; VOL. 38; NO 3; PP. 941-962; BIBL. 29 REF.Article

FURTHER STUDIES OF 2:2 ELECTROLYTES: OSMOTIC AND ACTIVITY COEFFICIENTS.GLUECKAUF E.1976; PROC. R. SOC. LONDON, A; G.B.; DA. 1976; VOL. 351; NO 1667; PP. 471-479; BIBL. 18 REF.Article

ON THE RELAXATION OF THE CONTINUUM APPROXIMATION IN THE THEORY OF ELECTROLYTES. II. ION DISTRIBUTIONSGOLDSTEIN RA; HAY PF; KOZAK JJ et al.1975; J. CHEM. PHYS.; U.S.A.; DA. 1975; VOL. 62; NO NO 1; PP. 285-291; BIBL. 9 REF.Article

The electric conductivity of stationary and homogeneous electrolytes up to concentrations c∼1 mol/l and high electric fieldsLESSNER, G.Physica. A. 1983, Vol 122, Num 3, pp 441-458, issn 0378-4371Article

Nonrandom factor model for electrolyte solutionsHAGHTALAB, A; VERA, J. H.AIChE journal. 1991, Vol 37, Num 1, pp 147-149, issn 0001-1541Article

The equilibrium properties of charged hard spheres with adhesive interactions between oppositely charged ionsRASAIAH, J. C; SONG HI LEE.The Journal of chemical physics. 1985, Vol 83, Num 12, pp 6396-6404, issn 0021-9606Article

An improved procedure for the construction of ion-pair distribution functions within the Debye-Hückel frameworkCOOPER, I. L; HARRISON, J. A.Chemical physics letters. 1985, Vol 122, Num 6, pp 557-561, issn 0009-2614Article

PRIMITIVE MODEL ELECTROLYTES. II: THE SYMMETRICAL ELECTROLYTEVALLEAU JP; COHEN LK; CARD DN et al.1980; J. CHEM. PHYS.; ISSN 0021-9606; USA; DA. 1980; VOL. 72; NO 11; PP. 5942-5954; BIBL. 65 REF.Article

TRANSPORT PROPERTIES AND THE TIME EVOLUTION OF ELECTROLYTE SOLUTIONS IN THE BROWNIAN DYNAMICS APPROXIMATIONTURQ P; LANTELME F; LEVESQUE D et al.1979; MOLEC. PHYS.; GBR; DA. 1979; VOL. 37; NO 1; PP. 223-236; BIBL. 26 REF.Article

PRECISE CONDUCTIMETRIC STUDIES IN AQUEOUS SOLUTIONS OF 2:2 ELECTROLYTES. II: ANALYSIS OF DATA FOR MGSO4 IN TERMS OF NEW EQUATIONS FROM FUOSS AND FROM LEE AND WHEATONPETHYBRIDGE AD; TABA SS.1980; CS FARADAY TRANS. I; ISSN 0300-9599; GBR; DA. 1980; VOL. 76; NO 2; PP. 368-376; BIBL. 16 REF.Article

ON A CLASS OF EXTENDED MEAN SPHERICAL APPROXIMATIONSMEDINA NOYOLA M; MCQUARRIE DA; OLIVARES W et al.1978; CHEM. PHYS. LETTERS; USA; DA. 1978; VOL. 58; NO 3; PP. 351-354; BIBL. 9 REF.Article

STATISTICAL MECHANICS OF ELECTROLYTES AND POLYELECTROLYTES. I: SYMMETRIC ELECTROLYTE SOLUTIONSRAMANATHAN GV; WOODBURY CP JR.1982; J. CHEM. PHYS.; ISSN 0021-9606; USA; DA. 1982; VOL. 77; NO 8; PP. 4120-4132; BIBL. 24 REF.Article

PRECISE CONDUCTIMETRIC STUDIES ON AQUEOUS SOLUTIONS OF 2:2 ELECTROLYTES. III. DETAILED STUDY OF INDIVIDUAL ELECTROLYTESPETHYBRIDGE AD; TABA SS.1982; CS FARADAY TRANS. 1; ISSN 0300-9599; GBR; DA. 1982; VOL. 78; NO 4; PP. 1331-1344; BIBL. 35 REF.Article

PRIMITIVE MODEL ELECTROLYTES. I: GRAND CANONICAL MONTE CARLO COMPUTATIONSVALLEAU JP; COHEN LK.1980; J. CHEM. PHYS.; ISSN 0021-9606; USA; DA. 1980; VOL. 72; NO 11; PP. 5935-5941; BIBL. 19 REF.Article

PRECISE CONDUCTIMETRIC STUDIES ON AQUEOUS SOLUTIONS OF 2:2 ELECTROLYTES. INTERPRETATION OF NEW DATA IN TERMS OF THE CURRENT THEORIES OF PITT AND FUOSS.PETHYBRIDGE AD; SHAHAB SOLTANI TABA.1977; FARADAY DISCUSS. CHEM. SOC.; G.B.; DA. 1977 PARU 1978; NO 64; PP. 274-353 (43P.); BIBL. 20 REF.; (GEN. DISCUSS. ION-ION ION-SOLVENT INTERACTIONS. MEET.; OXFORD; 1977)Conference Paper

NUMERICAL METHOD AND GENERAL DISCUSSION OF INTEGRAL EQUATIONS FOR THE PRIMITIVE MODEL OF THE ELECTRIC INTERFACEBLUM L; HERNANDO J; LEBOWITZ JL et al.1983; JOURNAL OF PHYSICAL CHEMISTRY; ISSN 0022-3654; USA; DA. 1983; VOL. 87; NO 15; PP. 2825-2832; BIBL. DISSEM.Article

THE APPLICATION OF THE MODIFIED GOUY-CHAPMAN THEORY TO AN ELECTRICAL DOUBLE LAYER CONTAINING ASYMMETRIC IONSBHUIYAN LB; BLUM L; HENDERSON D et al.1983; JOURNAL OF CHEMICAL PHYSICS; ISSN 0021-9606; USA; DA. 1983; VOL. 78; NO 1; PP. 442-445; BIBL. 10 REF.Article

ELECTRICAL DOUBLE LAYERS. IV: LIMITATIONS OF THE GOUY-CHAPMAN THEORYTORRIE GM; VALLEAU JP.1982; J. PHYS. CHEM.; ISSN 0022-3654; USA; DA. 1982; VOL. 86; NO 16; PP. 3251-3257; BIBL. 19 REF.Article

Fractal analysis of ionic trajectories in electrolyte solutionsGIL MONTORO, J. C; ABASCAL, J. F. L; TURQ, P et al.Chemical physics letters. 1991, Vol 183, Num 1-2, pp 125-128, issn 0009-2614Article

Notes on Gouy diffuse-layer theoryDE LEVIE, R.Journal of electroanalytical chemistry and interfacial electrochemistry. 1990, Vol 278, Num 1-2, pp 17-24, issn 0022-0728, 8 p.Article

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