James William McBain
#73,478
Most Influential Person Across History
Canadian chemist
James William McBain's AcademicInfluence.com Rankings
Download Badge
Chemistry
James William McBain's Degrees
- PhD Chemistry University of British Columbia
Why Is James William McBain Influential?
(Suggest an Edit or Addition)According to Wikipedia, James William McBain FRS was a Canadiann chemist. He gained a Master of Arts at Toronto University and a Doctor of Science at Heidelberg University. He carried out pioneering work in the area of micelles at the University of Bristol. As early as 1913 he postulated the existence of "colloidal ions", now known as micelles, to explain the good electrolytic conductivity of sodium palmitate solutions. He was elected a Fellow of the Royal Society in May 1923 He won their Davy Medal in 1939.
James William McBain's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- A NEW SORPTION BALANCE1 (1926) (278)
- An Explanation of Hysteresis in the Hydration and Dehydration of Gels (1935) (172)
- Diffusion of Electrolytes and of the Ions in their Mixtures (1941) (136)
- On Adhesives and Adhesive Action (134)
- A CLOSED CELL FOR ELECTRON MICROSCOPY. (1944) (128)
- The surface viscosity of detergent solutions as a factor in foam stability (1953) (126)
- The Sorption of Gases and Vapours by Solids. (1932) (98)
- The solubility of sodium and potassium soaps and the phase diagrams of aqueous potassium soaps (1948) (83)
- COLLOIDAL ELECTROLYTES. SOAP SOLUTIONS AND THEIR CONSTITUTION.2 (1920) (71)
- DIFFUSION OF ELECTROLYTES, NON-ELECTROLYTES AND COLLOIDAL ELECTROLYTES (1931) (60)
- Inhibition of Foaming in Solvents Containing Known Foamers (1944) (57)
- Measurement of vapor pressures by means of matched thermistors. (1951) (54)
- Vapor pressure data and phase diagrams for some concentrated soap-water systems above room temperatures (1943) (54)
- Solubilization of Insoluble Organic Liquids by Detergents (1946) (52)
- Aqueous systems of non-ionic detergents as studied by X-ray diffraction. (1948) (48)
- The Solubilization of Water-insoluble Dye in Dilute Solutions of Aqueous Detergents* (1941) (47)
- Cryoscopic Evidence for Micellar Association in Aqueous Solutions of Non-ionic Detergents (1947) (42)
- Measurements of adsorption at the air-water interface by the microtome method (1936) (37)
- The Microtome Method of the Determination of the Absolute Amount of Adsorption (1931) (37)
- XCIX. The mechanism of the adsorption (“sorption”) of hydrogen by carbon (1909) (36)
- Phase Rule Equilibria of Acid Soaps. I. Anhydrous Acid Potassium Laurate. (1932) (36)
- CXIX.—Colloidal electrolytes: soap solutions as a type (35)
- Transfer of air through adsorbed surface films as a factor in foam stability (1953) (34)
- A Phase Rule Study of the System Sodium Stearate–Water. (1940) (33)
- CLXVII.—The investigation of sodium oleate solutions in the three physical states of curd, gel, and sol (31)
- Solubilization of Water-Insoluble Dye in Aqueous Solutions of Commercial Detergents (1942) (30)
- The Nature of the Sorption of Water by Charcoal (1933) (28)
- An Electron Microscope Study of Curd Fibers of Sodium Laurate (1941) (27)
- The Diffusion of Potassium Chloride in Aqueous Solution (1935) (27)
- The hydrolysis of soap solutions. II. The solubilities of higher fatty acids (1948) (27)
- Soap micelles that solubilize dimethyl phthalate, a liquid insoluble in water and in hydrocarbon. (1948) (26)
- Colloidal electrolytes. —Soap solutions and their constitution (1920) (26)
- A Simple Proof of the Thermodynamic Stability of Materials Taken Up by Solutions Containing Solubilizers Such as Soap (1940) (26)
- The solubilization of four typical hydrocarbons in aqueous solution by three typical detergents. (1951) (25)
- Lamellar and other micelles, and solubilization by soaps and detergents. (1949) (25)
- Ultrafiltration through Cellophane of Porosity Adjusted between Colloidal and Molecular Dimensions. (1935) (25)
- The vapor pressures of aqueous solutions of some detergents. (1951) (25)
- Optical Surface Thickness of Pure Water (1939) (24)
- Studies on Solubilization. (1942) (23)
- CCXV.—Studies of the constitution of soap in solution: sodium myristate and sodium laurate (23)
- Solubilization of Water-Insoluble Dye in Soap Solutions: Effects of Added Salts (1946) (23)
- A Phase Rule Study of the System Sodium Myristate-Water (1941) (23)
- The Apparent Viscosity of Colloidal Solutions and a Theory of Neutral Colloids as Solvated Micelles capable of Aggregation (22)
- The osmotic behavior of some colloidal electrolytes as determined by means of the Hill-Baldes vapor-tension apparatus. (1948) (22)
- The Probable Non-Existence of Normal Tribasic Aluminum Soaps Such as Aluminum Tripalmitate (1932) (22)
- THE NATURE OF THE SORPTION BY CHARCOAL OF GASES AND VAPORS UNDER GREAT PRESSURE (1930) (22)
- Studies of Protein Foams Obtained by Bubbling (1949) (21)
- Solubilization and the Colloidal Micelles in Soap Solution (1944) (21)
- The Effect of Potassium Oleate upon the Solubility of Hydrocarbon Vapors in Water (1941) (21)
- The hydrolysis of soap solutions. III. Values of pH and the absence of fatty acid as free liquid or solid (1948) (20)
- Ultrafiltration as a Test for Colloidal Constituents in Aqueous and Non-aqueous Systems (20)
- XCII.—Studies of the constitution of soap solutions: the alkalinity and degree of hydrolysis of soap solutions (20)
- Adsorption of lauryl sulphonic acid in the surface of its aqueous solution, and the Gibbs theorem (1940) (20)
- Penicillin G as electrolyte and colloidal electrolyte. (1949) (20)
- CCLXXXI.—The ultra-filtration of soap solutions: sodium oleate and potassium laurate (19)
- Phase Rule Equilibria of Acid Soaps. IV. The Three-Component System Potassium Laurate—Lauric Acid—Water1 (1933) (19)
- Phase Rule Studies of Soap. II. The System Sodium Laurate—Sodium Chloride—Water (1938) (19)
- 216. Phase-rule equilibria of acid soaps. Part II. Anhydrous acid sodium palmitates (1933) (19)
- The adsorption theorem of J. Willard Gibbs. Anomalies in applying it to surface tension curves that exhibit minima in dilute solution (1938) (19)
- SOAPS AS COLLOIDAL ELECTROLYTES (1928) (19)
- Membranes for high pressure ultra-filtration (18)
- 217. Phase-rule equilibria of acid soaps. Part III. Anhydrous acid potassium oleate (1933) (18)
- The Spontaneous Stable Formation of Colloids from Crystals or from True Solution through the Presence of a Protective Colloid1 (1936) (18)
- Freezing-points of solutions of typical colloidal electrolytes; soaps, sulphonates, sulphates and bile salt (1942) (17)
- The Ultrafiltration of Soap Solutions (1933) (17)
- The Solubility of Propylene Vapor in Water as Affected by Typical Detergents (1942) (17)
- On the Nature of the Influence of Humidity Changes upon the Composition of Building Materials (17)
- Spontaneous emulsification, and reactions overshooting equilibrium (1937) (17)
- Aluminum dilaurate as association colloid in benzene. (1947) (16)
- Solubilization of water-insoluble dye by colloidal electrolytes and non-ionizing detergents. (1948) (16)
- Spontaneous emulsification of pure xylene in an aqueous solution through mere adsorption of a detergent in the interface (1949) (16)
- Phase Rule Studies of Soap Systems. I. Applicability of the Phase Rule (1938) (16)
- The Osmotic Activity of Colloidal Electrolytes (1943) (15)
- AN EXPERIMENTAL TEST OF THE GIBBS ADSORPTION THEOREM: A STUDY OF THE STRUCTURE OF THE SURFACE OF ORDINARY SOLUTIONS1 (1927) (15)
- The Apparent Viscosity of Solutions of Nitro Cotton in Various Solvents (15)
- Accelerated and Retarded Diffusion in Aqueous Solution1 (1934) (15)
- Oxidation of Ferrous Solutions by Free Oxygen (14)
- X‐Ray Diffraction Investigation of Sodium Stearate from Room Temperature to the Melting Point (1943) (14)
- Theories of Adsorption and the Technique of its Measurement (1926) (14)
- Diffraction of X‐Rays by Sodium Stearate at Room Temperature (1943) (14)
- FURTHER EXPERIMENTAL TESTS OF THE GIBBS ADSORPTION THEOREM. THE STRUCTURE OF THE SURFACE OF ORDINARY SOLUTIONS (1929) (14)
- Effect of Soaps on Mutual Solubility of Organic Liquids (1946) (14)
- LXXV.—The hydrolysis of soap solutions, measured by the rate of catalysis of nitrosotriacetonamine (14)
- The structural types of aqueous systems of surface‐active substances and their X‐ray diffraction characteristics (1948) (14)
- The osmotic activity and conductivity of aqueous solutions of some typical colloidal electrolytes (1948) (14)
- Non-Ionic Detergents as Association Colloids Giving Long X-Ray Spacings in Aqueous Solution (1947) (13)
- Osmotic Properties of Solutions of Some Typical Colloidal Electrolytes. (1943) (13)
- X-Ray Diffraction of Sodium Laurate, Palmitate and Stearate at Room Temperature (1943) (13)
- LXXII.—Studies of the constitution of soap solutions. Solutions of sodium palmitate, and the effect of excess of palmitic acid or sodium hydroxide (13)
- Micellar Structure as Related to Cellulose (1936) (13)
- Association in the Dissociation of Simple Straight-Chain Sulfonic Acids in Water. II. Freezing Point1 (1935) (13)
- The Conception and Properties of the Electrical Double Layer and its Relation to Ionic Migration (13)
- Solubilizing and Detergent Action in Non-Ionizing Solvents (1940) (13)
- Theories of occlusion; and the sorption of iodine by carbon (12)
- Diffraction of X-rays by aluminum dilaurate and aluminum distearate (1946) (12)
- The phase behavior of sodium stearate in anhydrous organic solvents. (1947) (12)
- MEMBRANES FOR ULTRAFILTRATION, OF GRADUATED FINENESS DOWN TO MOLECULAR SIEVES (1928) (12)
- The Behavior of Metallic Soaps with Organic Solvents (1931) (12)
- Mixtures of Colloidal Electrolytes with Uni-univalent Salts. (1935) (12)
- CXCV.—Acid soaps: a crystalline potassium hydrogen dioleate (12)
- The Magnitude of Surface Conductivity (1934) (12)
- X-ray diffraction in aqueous systems of dodecyl sulfonic acid. (1948) (12)
- Diffraction of X-Rays by Aqueous Solutions of Hexanolamine Oleate (1946) (12)
- The Equilibrium underlying the Soap-boiling Process. The System Potassium Laurate-Potassium Chloride-Water (11)
- REVERSIBLE ADSORPTION IN THE SURFACE OF SOAP SOLUTIONS (1936) (11)
- LXXXV.—The use of phenolphthalein as an indicator. The slow rate of neutralisation of carbonic acid (11)
- A Study of the Constitution of Aqueous Solutions of the Hydrogen Soap, Cetyl Sulfonic Acid (1933) (10)
- A Phase Study of Commercial Soap and Water (1941) (10)
- Effect of Salts on the Solubilization of Insoluble Organic Liquids by Cetylpyridinium Chloride (1948) (10)
- The Determination of Bound Water by Means of the Ultracentrifuge (1936) (10)
- A Phase Rule Study1 of the Mixed Soap System Sodium Palmitate-Sodium Laurate-Sodium Chloride-Water at 90° (1939) (10)
- Expansion of the Lamellar Crystal Lattice of ‘Aerosol OT’ upon the Addition of Water (1949) (10)
- Conductivity at the interface between pyrex glass and solutions of potassium chloride. (1948) (10)
- Studies of aluminium soaps. VII. Aluminium soaps in hydrocarbons. The gels and jellies and transformations between them (1946) (9)
- Comparative Measurements of the Surface Conductivity of Solutions of Various Electrolytes at a Boundary of Pyrex (9)
- THE SALTING OUT OF GELATIN INTO TWO LIQUID LAYERS WITH SODIUM CHLORIDE AND OTHER SALTS (1928) (9)
- Systems of Sodium Palmitate in Organic Liquids. (1940) (9)
- A Robust Microbalance of High Sensitivity, Suitable for Weighing Sorbed Films (1929) (9)
- The Diffusion of Colloids and Colloidal Electrolytes; Egg Albumin; Comparison with Ultracentrifuge1 (1934) (9)
- ABSOLUTE MEASUREMENTS OF THE SURFACE CONDUCTIVITY NEAR THE BOUNDARY OF OPTICALLY POLISHED GLASS AND SOLUTIONS OF POTASSIUM CHLORIDE (1929) (9)
- CXX.—The equilibria underlying the soap-boiling processes. Pure sodium palmitate (8)
- LV.—The equilibria underlying the soap-boiling processes. The system potassium oleate–potassium chloride–water (8)
- Films of Adhesives (8)
- The Solubility of Sodium Palmitate in Organic Liquids. (1942) (8)
- The solubility of heavy metal soaps in co-solvent mixtures of chloroform and propylene glycol (1947) (8)
- The Ultramicroscopic Structure of Soaps (1921) (7)
- Adhesives and Adhesion Mechanical Properties of Films of Adhesives (1927) (7)
- THE SORPTION OF ORGANIC VAPORS BY HIGHLY EVACUATED, ACTIVATED SUGAR CHARCOAL1 (1930) (7)
- Adhesives and Adhesion: Gums, Resins and Waxes between Polished Metal Surfaces (7)
- 218. Conductivity in the three-component system oleic acid–potassium oleate–water (1933) (7)
- X-RAY EVIDENCE FOR A THIRD POLYMORPHIC FORM OF SODIUM STEARATE. (1942) (7)
- AMALGAMS OF GOLD AND MERCURY (1926) (7)
- Microtome Measurements of the Adsorption of Hydrocinnamic Acid in the Surface of its Aqueous Solutions (1940) (7)
- Phase boundaries in ternary systems of sodium oleate, compared with other soaps (1943) (7)
- The Solubility Curve of Sodium Deoxycholate in Water (1941) (7)
- APPLICATION OF FILM BALANCE TO SURFACE OF ORDINARY SOLUTIONS (1939) (7)
- The Predominant Role of Association in the Dissociation of Simple Straight-Chain Sulfonic Acids in Water. I. Conductivity1 (1935) (7)
- The Effect of Departure from Spherical Shape on the Viscosity Caused by Colloidal Particles and Large Molecules1 (1937) (7)
- Diffraction of X-rays by Sodium Laurate and Sodium Palmitate at Higher Temperatures. (1943) (7)
- The Hydration of Sucrose in Aqueous Solutions (6)
- The blending of water with organic solvents by detergents (1947) (6)
- Application of the Phase Rule to Soap Boiling (1943) (6)
- CLXII.—A study of the rate of saponification of oils and fats by aqueous alkali under various conditions (6)
- The hydrolysis of soap solutions. IV. The composition of acid potassium laurates and acid sodium oleates as determined by conductivity measurements (1948) (6)
- CCLXXV.—The constitution of soap solutions: migration data for potassium oleate and potassium laurate (6)
- The sorption of vapours by nitrocotton (1933) (6)
- Soap-Boiling Equilibria for Sodium Stearate. The New Phase, Kettle Wax (1944) (6)
- Variability and inhomogeneity of aluminum dilaurate. (1948) (6)
- THE SALT ERROR OF INDICATORS CAUSED BY STANDARD ALKALINE BUFFERS THEMSELVES (1926) (6)
- Changes in solubilizing power with concentration for various detergents (1949) (5)
- Electrification and Luminescence Phenomena Accompanying Desorption of Gases from Metals (1943) (5)
- The interferometer method for measuring absolute adsorption in the surface of solutions (1940) (5)
- The Influence of Physical State of a Soap Solution and Yasota Kawakami, upon the Rate of Saponification of Triglycerides and the Differing Degrees of Emulsification for Neighboring Triglycerides (5)
- Structure in amorphous and colloidal matter (1929) (5)
- Diffusion and Osmotic Coefficients, Conductivity, Membrane Analyses, and the Determination of Micellar Charge and Composition in Some Colloidal Electrolytes. (1949) (5)
- CLVII.—The effect of an electrolyte on solutions of pure soap. Phase-rule equilibria in the system sodium laurate–sodium chloride–water (5)
- Oriented X‐Ray Diffraction Patterns Produced by Hydrous Liquid Crystals (1948) (5)
- Isotropic and Anisotropic Liquid Phases in the System Hexanolamine Oleate-Water (1946) (5)
- X-Ray Diffraction by Aqueous Systems of Triethanolamine Laurate (1950) (5)
- LXXXVI.—The alkalinity of soap solutions as measured by indicators (5)
- Diffraction of X-Rays by Sodium Oleate and Hexanolamine Oleate (1946) (5)
- CCLXXXIV.—Hydrolysis in solutions of potassium laurate as measured by extraction with benzene (4)
- Sorption of Water Vapor by Soap Curd (1943) (4)
- THE SOLUTION OF INSOLUBLE DYES IN AQUEOUS DETERGENTS1 (1937) (4)
- Observations of Surface Tension in the PLAWM1 Trough (1940) (4)
- Surface Properties of Oils (1949) (4)
- THE SORPTION OF TOLUENE AND ACETIC ACID AND THEIR MIXTURES BY CARBON (1924) (4)
- The Activity Coefficient of Soap Solutions (1926) (4)
- The Solubility of Oil-Soluble Dyes in Aqueous Solutions of Stable Protecting Colloids as Examples of True Reversible Equilibrium (1938) (4)
- The structure of transparent soap (1944) (4)
- CXXIII.—The relative concentrations of various electrolytes required to salt out soap solutions (4)
- Opaque or Analytical Ultracentrifuges. (1939) (4)
- Physical-chemical properties of solutions of the colloidal electrolyte hexanolamine oleate (1946) (4)
- Straight-Chain Sulfonic Acids in Water. III. Electromotive Force1 (1935) (4)
- The electrical conductivity caused by insoluble monomolecular films of fatty acid on water (1929) (4)
- The Viscosity of Nitrocotton in Various Solvents and Mixtures. (1933) (4)
- TWO NEW METHODS FOR THE DIRECT MEASUREMENT OF THE ABSOLUTE AMOUNT OF ADSORPTION IN LIQUID SURFACES (1936) (3)
- Sorption from solution by active magnesium oxide. (1948) (3)
- Persorption and monomolecular sieves (1932) (3)
- CXXIV.—The effect of salts on the vapour pressure and degree of dissociation of acetic acid in solution. An experimental refutation of the hypothesis that neutral salts increase the dissociation constants of weak acids and bases (3)
- The Structural Properties of Anisotropic Solutions of Soap as Determined by a New Centrifugal Falling Ball Method (1932) (3)
- THE INCOMPATIBILITY BETWEEN ANY THEORY OF COMPLETE DISSOCIATION AND MIGRATION DATA FOR DIVALENT IONS (1928) (3)
- The Hydration of Curd Fibers of Sodium Palmitate and Sodium Oleate (1941) (3)
- CCLXXX.—The rates of saponification of various commercial oils, fats, and waxes and pure triglycerides by aqueous alkali (3)
- Soaps and Similar Long-chain Derivatives as Simple Half-strong Electrolytes in Dilute Solution. (1939) (3)
- Activation of Redwood and Ash-free Sugar Charcoal in a Current of Air. (1935) (3)
- The measurement of the hydrolysis of solutions of sodium salts of fatty acids. I. (1947) (3)
- Note on the system of recording rate of chemical reaction (3)
- What Is a Colloid? (1921) (3)
- CCCLVII.—The effect of electrolytes upon the viscosity of solutions of sodium palmitate (3)
- The sorption of organic vapors by monolayers of soap (1947) (3)
- Some Uses of the Air-Driven Spinning Top (1935) (3)
- SALT ERROR OF INDICATORS DUE TO STANDARD ALKALINE BUFFERS THEMSELVES. II (1929) (3)
- The bearing of migration data on conduction in solutions. The electrochemistry of sodium iodide in acetone (3)
- Colloidal Electrolytes (1940) (3)
- The Sorption of Organic Vapors by Activated Sugar Charcoal (3)
- The kettle wax phase in the system sodium laurate, sodium chloride and water (1944) (3)
- DEVELOPMENT OF AN AIR-DRIVEN ULTRACENTRIFUGE (1935) (3)
- The Development of the Air-Driven Spinning Top as Transparent Ultracentrifuge (1935) (3)
- Adhesives and Adhesion: True Chemical Compounds as Adhesives (3)
- CXLIII.—A criticism of the hypothesis that neutral salts increase the dissociation of weak acids and bases (3)
- A Method of determining the Detergent Action of Soaps (3)
- Transference Numbers of Colloidal "Ferric Hydroxide." (1935) (3)
- Part II. Special and technical. A. Soaps and other long chain electrolytes. The activity of soap solutions at 90 (1935) (3)
- The Hydration of the Crystalline Fibers of Soap Curd. (1933) (2)
- Straight-Chain Sulfonic Acids in Water. IV. Comparison of Results, and So-called “Hammarsten Effects” (1935) (2)
- Adhesives and Adhesion: Pure Chemical Substances as Adhesives (2)
- A Novel Magneto-Optical Effect (1921) (2)
- Sedimentation Equilibrium of Sucrose in the Simplest Opaque Air-Driven Spinning Tops as Ultracentrifuges (1937) (2)
- The Dependence of the Ultrafiltrate from a Sol of “Ferric Hydroxide” upon Rate of Ultrafiltration; Donnan Equilibrium and Ph of Sols (1933) (2)
- Structure in Surfaces of Liquids (1927) (2)
- A Simple Inexpensive Ultracentrifuge (1938) (2)
- CXX.—The degree of hydration of the particles which form the structural basis of soap curd, determined in experiments on sorption and salting out (2)
- Liquid Crystals—Soap Solutions and X-rays (1924) (2)
- Studies of Solutions of Hydrocinnamic Acid and of Lauryl Sulfonic Acid with the Film Balance (1940) (2)
- Measurement of Sedimentation Velocity in Simple Air-driven Tops as Ultracentrifuges (1938) (2)
- The Sorption of Vapors by Activated, Highly Evacuated, Sugar Charcoal Over Long Periods of Time1 (1934) (2)
- Book Reviews: Surface Active Agents: Their Chemistry and Technology (1949) (2)
- CLIX.—Adsorption formulae (2)
- CCCLVI.—The hydrolysis of solutions of sodium palmitate as measured by extraction with p-xylene (2)
- THE SIMPLEST TRANSPARENT ULTRACENTRIFUGE. (1939) (2)
- THE DETERMINATION OF SEDIMENTATION RATE AND EQUILIBRIUM IN CENTRIFUGES AND OPAQUE ULTRACENTRIFUGES. (1938) (2)
- Directly Air-driven Transparent Ultracentrifuges. (1939) (2)
- Soaps and the Theory of Colloids (1925) (2)
- The Identity of the Colloidal Particles in Soap Sols and Jellies. (2)
- The sorption of vapors by sugar charcoal over a period of twenty years (1948) (2)
- Phase rule equilibria of horse serum globulin (2)
- Some recent advances in colloids (1940) (2)
- A Note on the Phase Rule Diagram for a Mixture of Sodium Palmitate and Sodium Laurate with Water (1941) (1)
- Control of Foaming by Adding Known Mixtures of Pure Chemicals (1949) (1)
- Analysis of properties of foam (1949) (1)
- Solubilization of water-insoluble dye by pure soaps and detergents of different types. (1947) (1)
- Sedimentation Equilibrium in the Ultracentrifuge; Types Obtained with Soap Solutions (1933) (1)
- A Comparative Study of Surfaces of Solutions with the Film Balance and Surface Tension Equipment (1941) (1)
- CHEMISTRY AND MODERN LIFE. (1)
- CLVIII.—The hydration of the fibres of soap curd. Part II. The dew-point method (1)
- A Simplified and Improved Cell for Liquids in the Interferometer (1936) (1)
- OPAQUE ULTRACENTRIFUGES FOR DIRECT ANALYSIS1,2 (1937) (1)
- Correction - "Solubilization of Water - Insoluble Dye in Aqueous Solutions of Commercial Detergents" (1942) (1)
- The Hydrogen Electrode in the Study of the Rate of Saponification of Oils and Fats by Aqueous Alkali (1)
- The Degree of Dissociation and the Ions of Cadmium Iodide in Aqueous Solution (1)
- Additions and Corrections. Diffusion of Electrolytes and of the Ions in their Mixtures (1942) (1)
- Sedimentation Equilibrium in the Simplest Air-driven Tops (1937) (1)
- CLVII.—The hydration of the fibres of soap curd. Part I. The degree of hydration determined in experiments on sorption and salting out (1)
- The simplest ultracentrifuge with photographic recording (1940) (1)
- Colloids and Colloidal Electrolytes (1921) (0)
- The study of soap solutions and its bearing upon colloid chemistry (1923) (0)
- The Turbidity and Color of Beer as Determined by a Photoelectric Method (1942) (0)
- Surface Active Agents. By C. B. F. Young and K. W. Coons. (1947) (0)
- Flow in a Thin Glass Capillary as Affected by Wetting the Exterior of the Capillary (1949) (0)
- Liquid Crystals, Soap Solutions, and X-Rays (0)
- Colloid Science (1950) (0)
- THE DISSOCIATION OF TERNARY ELECTROLYTES. (1912) (0)
- Colloidal Electrolytes : Soap Solutions as a Type (0)
- Additions and Corrections. The Solubility of Propylene Vapor in Water as Affected by Typical Detergents (1942) (0)
- X-Ray Evidence for a Third Polymorphic Form of Sodium Stearate (1942) (0)
- Fundamental Studies on Aluminum Fuels (1944) (0)
- THE PHYSICAL CHEMISTRY AND STABILITY OF BUBBLES WITH SPECIAL REFERENCE TO AQUEOUS SOLUTIONS. SURFACE VISCOSITY OF DETERGENT SOLUTIONS AS A FACTOR IN FOAM STABILITY. (1949) (0)
- Effect of Various Compounds in Use With Airplane Engines Upon Foaming of Aircraft Lubricating Oil (1949) (0)
- Colloidal Electrolytes as a Class Inclusive of Polyelectrolytes, Chain Electrolytes, Long Chain Salts, Dyes, and Detergents. (1949) (0)
- Surface Active Agents: Their Chemistry and Technology . Anthony M. Schwartz and James W. Perry. New York: Interscience, 1949. Pp. xi+ 579. (Illustrated.) $10.00. (1949) (0)
- Addendum to the Note of Williams and Watson (1936) (0)
- Surface tension and surface energy and their influence on chemical phenomena. By R. S. Willows and E. Hatschek. Third edition. Pp. 136. London: J. and A. Churchill, 1923. Price 6s. 6d (1923) (0)
- The Sorption of Methylene Blue by Curd Fibers of Sodium Palmitate (1939) (0)
- Fundamental Studies on Aluminum Soaps (1944) (0)
- PRIMARY ADSORPTION DURING FOAM FORMATION. (1949) (0)
- The study of soap solutions (1922) (0)
- Some Properties of Sodium Palmitate Curd as Studied in the Centrifuge (1940) (0)
- The sorption of vapors by sugar charcoal over a period of 20 years. (1948) (0)
- Solubilization of benzene in certain detergent solutions that appear to give two different values (1953) (0)
- Attempts to deform existing oils by processing (1949) (0)
- The Nature of the Emulsoid Colloid State (1921) (0)
- Colloid Chemistry (Hartman, Robert J.) (1940) (0)
- Pre-Gibbs Adsorption by Surface Rearrangement (1936) (0)
- Quantitative study of variations in concentration of glycerol and aerosol OT on foaming volume of oil at room temperature (1949) (0)
- Periodic Precipitation in the Absence of Colloids. (1931) (0)
- Obituary notices: Leonard Archbutt, 1858–1935; James Munsie Bell, 1880–1934; Giuseppe Grassi Cristaldi, 1860–1934; William Thomas Gent, 1855–1934; Arthur William Nunn, 1867–1935; Sven Ludvig Alexander Odén, 1887–1934; Allan Winter Rowe, 1879–1934 (1935) (0)
- Additions and Corrections - Straight-Chain Sulfonic Acids in Water. III. Electromotive Force (1936) (0)
- The Journal of General Physiology (0)
- An introductin to the physics and chemistry of collids. By Emil hatchek. Fourth editio, entirely rewritten and enlarged. Pp. 172. (London: J. and A. Churchill. 1922.) price 7s. 6d. net (1922) (0)
- Flow in a Thin Glass Capillary as Affected by Wetting the Exterior of the Capillary. (1949) (0)
- Micelles and Colloidal Ions (1923) (0)
This paper list is powered by the following services:
Other Resources About James William McBain
What Schools Are Affiliated With James William McBain?
James William McBain is affiliated with the following schools:
