A contribution to the theory of permeability of thin films

[1]  H. Fricke The Electric Capacity of Suspensions of Red Corpuscles of a Dog , 1925 .

[2]  M. H. Jacobs,et al.  OSMOTIC PROPERTIES OF THE ERYTHROCYTE: IV. IS THE PERMEABILITY OF HE ERYTHROCYTE TO WATER DECREASED BY NARCOTICS? , 1932 .

[3]  E. N. Harvey THE TENSION AT THE SURFACE OF MARINE EGGS, ESPECIALLY THOSE OF THE SEA URCHIN, ARBACIA , 1931 .

[4]  E. N. Harvey The flattening of marine eggs under the influence of gravity , 1933 .

[5]  G. H. Clowes On the electrical resistance and permeability of tumor tissues , 1918 .

[6]  J. Prins Transitions to Optical Levels in the Argon L X-Ray Absorption Spectrum , 1934, Nature.

[7]  K. Cole Surface forces of the Arbacia egg , 1932, Protoplasma.

[8]  E. N. Harvey,et al.  The tension at the surface of the eggs of the salamander, Triturus (Diemyctylus) viridescens , 1933 .

[9]  H. Fricke THE ELECTRIC IMPEDANCE OF SUSPENSIONS OF BIOLOGICAL CELLS , 1933 .

[10]  J. D. Bernal,et al.  X-Ray Photographs of Crystalline Pepsin , 1934, Nature.

[11]  I. Langmuir,et al.  The Effect of Monomolecular Films on the Evaporation of Ether Solutions. , 1926 .

[12]  E. Rideal On the Influence of Thin Surface Films on the Evaporation of Water , 1924 .

[13]  H. Curtis,et al.  Electric Impedance of Suspensions of Yeast Cells , 1934, Nature.

[14]  J. Mcclendon,et al.  COLLOIDAL PROPERTIES OF THE SURFACE OF THE LIVING CELL II. ELECTRIC CONDUCTIVITY AND CAPACITY OF BLOOD TO ALTERNATING CURRENTS OF LONG DURATION AND VARYING IN FREQUENCY FROM 260 TO 2,000,000 CYCLES PER SECOND , 1926 .