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UN COLLOID CHEMISTRY AND ITS INDUSTRIAL APPLICATIONS. 139 
f 
blood lost. Indeed, a gum solution of this kind was in extensive 
use during the war. 
BIBLIOGRAPHY. 
ABDERHALDEN, EmIL. (1898), ‘ Zeitschr. physiol. Chem.’ 25, 65. 
‘Zur quantitative vergleich. Analyse des Blutes.’ 
Bayuiss, W. M. (1911), ‘ Proc. Roy. Soc.’, B. 84, 229. 
‘The Osmotic Pressure cf Electrolytically Dissociated Colloids.’ 
Bay .iss, W. M. (1916), ‘Proc. Roy. Soe.’, B. 89, 380. 
‘Methods of Raising a Low Arterial Pressure.’ 
BERNSTEIN, JULIUS (1913), ‘ Biochem. Zeitschr.’, 50, 393. 
‘Zur elektrochemischen Grundlage der bioelektrischen Potentiale.’ 
BETHE, A. (1909), ‘ Pfliiger’s Archiv.’, 127, 219. 
‘Die Bedeutung der Elektrolyten fiir die rhythmischen Bewegungen der’ 
Medusen. II. Angriffspunkt der Salze, Einfluss der Anionen, OH und H 1onen.’ 
CHAMBERS, Ros., Jr. (1917), ‘Amer. Journ: Physiol.’ 48, 1. 
‘Microdissection Studies. I. The Visible Structure of Cell Protoplasm and 
Death Changes.’ 
CLowes, G. H. A. (1916), ‘Journ. Physic. Chem.’, 20), 407. 
‘Protoplasmic Equilibrium. Action of Antagonistic Electrolytes on Emulsions 
and pipe. Cells.’ 
Donnan, F. G. (1911), ‘ Zeitschr. Eiektrochem.’, ]'7, 572. 
‘Theorie der Membrangleichgewichte und Membranpotentiale bei Vorhendensailt 
von nicht dialysierenden Elektrolyten.’ 
DonnAN, F. G., and Harris, A. B. (1911), ‘ Trans. Chem. Soc.’, 99, 1554. 
‘The Osmotic Pressure and Conductivity of Aqueous Solutions of Congo-red, 
and Reversible Membrane Equilibria.’ 
FREUNDLICH, HERBERT (1909). 
> Kapillarchemie, Leipzig. 591 pp. 
GARMUS, A. (1912), ‘ Zeitschr. Biol.’, 58, 185. 
‘Die Permeabilitit der Driisenzellen fiir Farbstoffe.’ 
GRAY, JAMES (1916), ‘ Phil. Trans. Roy. Soc.’, 20'7 B., 481. 
‘The Hlectrical Conductivity of Echinoderm Eggs and its Bearing on the 
Problems of Fertilisation and Artificial Parthenogenesis.’ 
HABER, F., and Z. KLEMENSIEWICZ (1909), ‘ Zeitschr. physik. Chem.’, §'7, 385. 
‘ Ueber elektrische Phasengrenzkrafte.’ 
Harvey, HE. NEwTon (1914), ‘ Internat. Zeitschr. physik-chem. Biologie,’ 1, 463. 
‘The permeability of cells for acids.’ 
‘Publications of the Carnegie Institution of Washington,’ No. 188, 131. 
‘The Relation between the Rate of Penetration of Marine Tissues by Alkali and 
the Change in Functional Activity Induced by the Alkali.’ 
Hitt, A. V. (1910), ‘ Journ. Physiol.’, 40, 190. 
‘A New Mathematical Treatment of Changes of Ionic Concentration in Muscle 
and Nerve under the Action of Electric Currents, with a Theory as to their Mode of 
Excitation.’ 
HOoeEBER, R. (1912), ‘ Pfliiger’s Archiv.’, 148, 189. 
‘Hin zweites Verfahren, die Leitfahigkeit im Inneren der Zellen zu messen,’ 
HOEBER, R. (1913), ‘ Pfliiger’s Archiv.’, 150, 15. 
*‘Messungen der inneren Leitfaihigkeit von Zellen.’ 
Kire, G. L. (1913), ‘ Biolog. Bulletin,’ 25. 
‘The Relative Permeability of the Surface and Interior Portions of the Cytoplasm 
of Animal and Plant Cells.’ 
LEPESCHKIN, W. W. (1906), ‘ Beiheft z. Botan. Cbl.’, 19, i, 409. 
5 Beitriige aur Kenntnis der Mechanismus der aktiven Wasserausscheidung.’ 
LILLIE, RALPH 8. (1913), ‘Science,’ 3'7, 764. 
‘The Physico-chemical Conditions of Anesthetic Action, Correlation between 
the Anti-stimulating and the Anti-cytolytic Action of Anzsthetics.’ 
Linuiz, RALPH §. (1914), ‘ Popular Science Monthly,’ June, 1914, p. 579. 
‘The General _ Physico- chemical Conditions of Stimulation in Living Organisms.’ 
LInii£, RavpH §. (1914), ‘ Journ. Exper. Zool.’ » 16, 591. 
‘ Antagonism between Salts and Anwsthetics.’ 
Liniif, RatPHS (1915), ‘ Amer. Journ. Physiol.’, 37, 348. 
‘The Conditions of Conduction of Excitaticn in [rritable Cells and Tissues and 
especially in Nerve.’ 
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