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Results 1 to 25 of 2084

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Conditions of spontaneous dispersion and formation of thermodynamically stable colloid systemsSHCHUKIN, Eugene D.Journal of dispersion science and technology. 2004, Vol 25, Num 6, pp 875-893, issn 0193-2691, 19 p.Article

Thermochemical investigation of the new phase Bi12.5Gd1.5ReO24.5MATSKEVICH, Nata I; BRYZGALOVA, Anna N; WOLF, Thomas et al.Journal of chemical thermodynamics. 2012, Vol 53, pp 23-26, issn 0021-9614, 4 p.Article

Thermodynamic stability analysis and pressure-temperature flash for polydisperse polymer solutionsGHOSH, Auleen; TING, P. David; CHAPMAN, Walter G et al.Industrial & engineering chemistry research. 2004, Vol 43, Num 19, pp 6222-6230, issn 0888-5885, 9 p.Article

Stellar stability by thermodynamic instabilityPOSCH, Harald A; THIRRING, Walter.Physical review letters. 2005, Vol 95, Num 25, pp 251101.1-251101.4, issn 0031-9007Article

Novel amphiphilic macromolecules and their in vitro characterization as stabilized micellar drug delivery systemsLI TAO; UHRICH, Kathryn E.Journal of colloid and interface science. 2006, Vol 298, Num 1, pp 102-110, issn 0021-9797, 9 p.Article

Thermodynamic characteristics of a new phase Bi12.5Ho1.5ReO24.5 by solution calorimetryMATSKEVICH, Nata I; WOLF, Thomas; ADELMANN, Peter et al.Journal of alloys and compounds. 2014, Vol 604, pp 325-326, issn 0925-8388, 2 p.Article

Applicability of the adiabatic nucleation theory to glassesMEYER, Erich; SOARES, Vitorvani.Journal of non-crystalline solids. 2010, Vol 356, Num 52-54, pp 2908-2914, issn 0022-3093, 7 p.Conference Paper

Poloxamer-Stabilized Topical Miconazole Nitrate-Loaded Microemulsion: Formulation Design and CharacterizationKENNETH CHIBUZOR OFOKANSI; FRANKLIN CHIMAOBI KENECHUKWU; ISAH, A. B et al.Journal of dispersion science and technology. 2013, Vol 34, Num 10-12, pp 1563-1574, issn 0193-2691, 12 p.Article

On the possibility of formation of 3d-transition metal mixed oxides with spinel structureMEHANDJIEV, D; ZHECHEVA, E; ANGELOV, S et al.Thermochimica acta. 1985, Vol 95, Num 1, pp 155-158, issn 0040-6031Article

Thermodynamic phase stabilities of nanocarbonJIANG, Q; CHEN, Z. P.Carbon (New York, NY). 2006, Vol 44, Num 1, pp 79-83, issn 0008-6223, 5 p.Article

The thermodynamical stability of the heterogeneous system with a spherical interfaceJING-MIN YANG, A.The Journal of chemical physics. 1985, Vol 82, Num 4, pp 2082-2085, issn 0021-9606Article

Thermodynamic stability of modified Konishi-Kaneko systemINAGAKI, S.Progress of theoretical physics. 1993, Vol 90, Num 3, pp 577-584, issn 0033-068XArticle

Thermodynamic stabilities of the gaseous cerium carbides CeC, CeC2, CeC3, CeC4, CeC5, and CeC6KINGCADE, J. E. JR; COCKE, D. L; GINGERICH, K. A et al.High temperature science. 1983, Vol 16, Num 2, pp 89-109, issn 0018-1536Article

Fases termodinámicamente estables en el sistema cerrado CaO-SiO2-Al2O3-CaSO4-H2O a 25 °C. Aplicación a sistemas cementantes = Thermodinamically stable phases in the CaO-SiO2-Al2O3-CaSO4-H2O closed system at 25 °C. Application to cementitious systemsMARTINEZ-RAMIREZ, S; BLANCO-VARELA, M. T.Materiales de construcción (Madrid). 2009, Vol 59, Num 294, pp 31-39, issn 0465-2746, 9 p.Article

The role of water in hemoglobin function and stability. Author's replyBULONE, D; SAN BIAGO, P. L; PALMA-VITTORELLI, M. B et al.Science (Washington, D.C.). 1993, Vol 259, Num 5099, pp 1335-1336, issn 0036-8075Article

On conditions for formation of thermodynamically stable dispersed polymeric systemsLIPATOV, Y. S; FEINERMAN, A. E.Journal of colloid and interface science. 1984, Vol 98, Num 1, pp 126-130, issn 0021-9797Article

Environmental behavior of arsenic in soils: theoreticalMUHAMMAD JADIQ; ZAIDI, T. H; MIAN, A. A et al.Water, air and soil pollution. 1983, Vol 20, Num 4, pp 369-377, issn 0049-6979Article

Bulk and surface thermodynamics of polymer alloysSANCHEZ, I. C.Polymer engineering and science. 1984, Vol 24, Num 8, pp 598-600, issn 0032-3888Article

Inferring thermodynamic stability relationship of polymorphs from melting dataLIAN YU.Journal of pharmaceutical sciences. 1995, Vol 84, Num 8, pp 966-974, issn 0022-3549Article

Lanthanide thermodynamic predictions. V: Stabilities of lanthanide anions in liquid ammoniaBRATSCH, S. G; LAGOWSKI, J. J.Polyhedron. 1984, Vol 3, Num 1, pp 133-135, issn 0277-5387Article

Nernst's postulate derived directly from the vanishing heat capacity at zero temperatureYAN, Z; CHEN, J; ANDRESEN, B et al.Europhysics letters (Print). 2001, Vol 55, Num 5, pp 623-625, issn 0295-5075Article

Actinide thermodynamic predictions. II: Stabilities of actinide anions in liquid ammoniaBRATSCH, S. G; LAGOWSKI, J. J.Polyhedron. 1985, Vol 4, Num 5, pp 841-843, issn 0277-5387Article

Thermodynamic stability of the operation of sensorsKIRSCHNER, I.Sensors and actuators. A, Physical. 1994, Vol 42, Num 1-3, pp 622-629, issn 0924-4247Conference Paper

The role of changing surface mineralogy on the separation of phosphatic clay wasteANDERSEN, J. B; SOMASUNDARAN, P.International journal of mineral processing. 1993, Vol 38, Num 3-4, pp 189-203, issn 0301-7516Article

Thermodynamics stability of Y2Cu2O5 by e.m.f. methodPANKAJAVALLI, R; SREEDHARAN, O. M.Journal of materials science letters. 1988, Vol 7, Num 7, pp 714-716, issn 0261-8028Article

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